NL2032430B1 - Device and method for detecting the presence of leakage in a basin - Google Patents

Abstract

A measuring device 11 for measuring the liquid level 27 in a basin 1 has a float 13 that floats on the liquid 9 present in the basin 1, as well as a vertically arranged guide 15 in which the float 13 is freely movable. The guide 15 is connected to a frame 17 that is immovably connected to the basin 1. Furthermore, an infrared rangefinder 19 of the measuring device is attached to the frame 17 near the top of the guide 15. This distance meter 19 measures the distance to the float 13 without contact. The measuring device 11 is part of a device for detecting leakage in the basin 1. This device also has a control unit 25 that periodically controls the measuring device 11 to monitor the liquid level 27. in the basin 1, whereby a change in the liquid level 27 indicates a leak in the basin 1.

Description

Device and method for detecting the presence of leakage in a basin

DESCRIPTION:

Field of the invention

The invention relates to a measuring device for measuring the liquid level in a basin. Measuring the liquid level in a basin is not only for determining the amount of liquid in the basin, but also for monitoring the liquid level over time to determine whether or not there is liquid leakage. from the basin.

State of the art

In basins with a small diameter, the liquid level can be measured by, for example, placing a scale on the inside of the basin and reading the liquid level optically.

In large diameter basins, the same change in the amount of liquid in the basin will result in a much smaller change in the liquid level. In order to measure such small changes in the liquid level with sufficient accuracy, optical reading of a scale is not sufficient, but there is a need to measure the liquid level in the basin more accurately.

Summary of the Invention

An aim of the invention is to provide a measuring device for determining the liquid level in a basin with which the liquid level can be measured more accurately. To this end, the measuring device according to the invention is characterized in that it: - comprises a float that floats on liquid present in the basin during use, as well as

- a guide in which the float is freely movable and which is positioned vertically during use, - a frame that is immovably connected to the basin or to the fixed world during use and to which the guide is attached, and - a distance meter that is attached to the frame attached and is present near the top of the guide during use and which measures the distance to the float without contact.

By contactlessly measuring the position of a float, sufficient measurement accuracy can be achieved to detect relatively small changes in the amount of liquid in a relatively large basin in order to determine whether there is a leak in the basin. The guide of the float must be such that there is no friction between the float and the guide. By making the guide sufficiently wider than the float, the float can move freely in the guide and no friction will occur between the float and guide.

It is noted that, in general, measuring devices are also known for determining a liquid level that use a float floating on the liquid which is connected via an arm to a meter that determines the vertical position of the float. Such measuring devices are also not sufficient here because the measurement accuracy is insufficient due to friction of the arm in a guide or bearing.

Preferably, the rangefinder is an infrared rangefinder so that light changes in the basin cannot affect the accuracy of the measurement.

To prevent temperature variations in the basin from negatively affecting the measurement accuracy, the guide is preferably surrounded by insulating material and/or there can preferably be a heat screen around the guide.

To prevent expansion of the frame from negatively affecting the measurement accuracy, the frame is preferably made of carbon fiber. Such a frame will hardly expand or contract with temperature changes, so that temperature changes have no significant influence on the measurement accuracy.

The invention also relates to a device for detecting leakage in a basin. This device is characterized in that it comprises a measuring device according to the invention as described above, as well as a control unit that periodically controls the measuring device and measures the liquid level in the basin and compares it with that of a previous measurement.

An embodiment of this device is characterized in that it further comprises an air humidity meter, an air pressure meter, an air temperature meter, an anemometer, and a liquid temperature meter, as well as a calculating unit to which these meters are connected and which, on the basis of the measured values, determines the degree of evaporation of the liquid. calculates between the last and previous measurement of the liquid level and thus corrects the measured change in the liquid level.

This device preferably also has a groundwater level meter that is also connected to the calculation unit in order to correct the influence of the groundwater level on the measurement.

The invention further relates to a method for detecting the presence of leakage and measuring the degree of leakage of a basin in which a liquid is present. With regard to this method, the invention is characterized in that at the beginning and some time later at the end of the measurement the distance from a float floating on the liquid to a fixed level is measured using a measuring device described above in accordance with the method described above. invention, where a change indicates a leak and where the degree of leakage can be calculated from the change.

An embodiment of the method according to the invention is characterized in that to determine the liquid level in the basin, both at the beginning and at the end, the liquid level is measured at a number of times within a predetermined time period and the average liquid level is determined from this. within the time period at the beginning and at the end of the measurement. In this way the liquid level is determined more accurately and short-term disruptive effects have less influence on the measurement. To obtain an even more accurate measurement result, instead of determining the average of all measurements, you can first omit the highest and lowest measurement values and then determine the average of the remaining measurement values.

An even more accurate measurement result can be obtained by correcting the change in the liquid level with the amount of liquid that has evaporated between the beginning and the end of the measurement, by measuring the air pressure, the air temperature, the wind speed and the liquid temperature and from the measured values calculate the amount of liquid evaporated,

Brief description of the drawings

The invention will be explained in more detail below on the basis of an exemplary embodiment of the device according to the invention shown in the drawings. This shows:

Figure 1 shows a basin provided with a device for detecting the presence of leakage;

Figure 2 shows the basin shown in figure 1 in horizontal section; and

Figure 3 shows a detail of the basin in vertical section at the location of the device.

Detailed description of the drawings

In Figures 1 and 2, a basin provided with a device for detecting the presence of leakage is shown in perspective and in horizontal section, respectively. The basin 1 is located on a plateau 7 and has a cylindrical side wall 3 and a roof 5. The basin 1 has a diameter of 200 m" and is partly filled with liquid 9. In the basin 1 there is a measuring device 11 for measuring of the liquid level 27 in the basin.

In figure 3 the measuring device 11 is shown enlarged in a detail of the basin 1 in vertical section. The measuring device 11 has a float 13 that floats on the liquid 9 present in the basin 1, as well as a vertically arranged guide 15 in which the float 13 is freely movable. The guide 15 is connected to a frame 17 that is immovably connected to the basin 1. Furthermore, a distance meter 19 of the measuring device is attached to the frame 17. This distance meter 19 is an infrared distance meter and is located near the top of the guide 15 and measures the distance to the float 13 without contact.

To reduce the influence of the environment on the measuring device 11, the guide 15 is surrounded by insulating material 21 and a heat screen 23 is present around the guide 15. Furthermore, the frame 17 is made of carbon fiber to reduce expansion due to temperature changes. 5 The measuring device 11 is part of a device for detecting leakage in the basin 1. This device has a control unit 25 that periodically controls the measuring device 11 to monitor the liquid level 27 in the basin | and compare the measured level with that of a previous measurement. A change in the liquid level 27 indicates a leak in the basin |. The degree of leakage can be calculated from the change. In order to obtain the most accurate measurement values of the liquid level 27, the liquid level 27 is measured at a number of times during each measurement within a certain period of time and the average liquid level 27 is determined from this.

The device furthermore has an air humidity meter 31, an air pressure meter 33, an air temperature meter 35, an anemometer 37 and a liquid temperature meter 39, as well as a computing unit 29 to which these meters are connected. Based on the measured values, the calculating unit 29 calculates the degree of evaporation of the liquid 9 between the last and a previous measurement of the liquid level 27 and thus corrects the measured change in the liquid level 27.

Although the invention has been explained in the foregoing with reference to the drawings, it must be noted that the invention is by no means limited to the embodiment shown in the drawings. The invention also extends to all embodiments deviating from the embodiment shown in the drawings within the framework defined by the claims. The device can also be equipped with a groundwater level meter (not shown in the drawings) that is also connected to the calculation unit in order to correct the influence of the groundwater level on the measurement.

Claims (11)

CONCLUSIONS: 1. Measuring device (11) for measuring the liquid level in a basin (1), characterized in that the measuring device (11): - comprises a float (13) that floats on liquid (9) present in the basin during use , as well as - a guide (15) in which the float (13) is freely movable and which is positioned vertically during use, - a frame (17) that is immovably connected to the basin (1) or to the fixed world during use and to which the guide (15) is attached, and - a distance meter (19) that is attached to the frame (17) and is present near the top of the guide (15) during use and that measures the distance to the float (13) without contact . Measuring device (11) according to claim 1, characterized in that the distance meter (19) is an infrared distance meter. Measuring device (11) according to any one of the preceding claims, characterized in that the guide (15) is surrounded by insulating material (21). Measuring device (11) according to any one of the preceding claims, characterized in that a heat screen (23) is present around the guide (15). Measuring device (11) according to any one of the preceding claims, characterized in that the frame (17) is made of carbon fiber. 6. Device for detecting leakage in a basin (1), comprising a measuring device (11) according to any one of the preceding claims as well as a control unit (25) that periodically controls the measuring device (11) and the liquid level (27) in the basin (1) measures and compares with that of a previous measurement. Device according to claim 6, characterized in that it further comprises an air humidity meter (31), an air pressure meter (33), an air temperature meter (35), an anemometer (37) and a liquid temperature meter (39), as well as a calculating unit ( 29) to which these meters are connected and which, based on the measured values, calculates the degree of evaporation of the liquid (9) between the last and previous measurement of the liquid level (27) and thus corrects the measured change in the liquid level (27) . Device according to claim 7, characterized in that it also comprises a groundwater level meter that is also connected to the calculation unit (29). 9. Method for detecting the presence of leakage and measuring the degree of leakage of a basin (1) in which a liquid (9) is present, comprising measuring at the beginning and some time later at the end of the measurement of the distance from a float (13) floating on the liquid to a fixed level using a measuring device (11) according to any one of claims 1 to 5, wherein a change indicates a leak and wherein the change determines the extent of leakage can be calculated. Method according to claim 9, characterized in that to determine the liquid level (27) in the basin (1), the liquid level (27) is measured at a number of times both at the beginning and at the end within a predetermined period of time. is measured and the average liquid level (27) is determined within the time period at the beginning and at the end of the measurement. Method according to claim 9 or 10, characterized in that the change in the liquid level (27) is corrected by the amount of liquid evaporated between the beginning and the end of the measurement, by the air pressure, the air temperature, the wind speed and measure the liquid temperature and calculate the amount of evaporated liquid from the measured values.