FR3034517A1 - DEVICE FOR EVALUATING THE FLOW OF A FIRST FLUID TO A SECOND FLUID THROUGH A WALL - Google Patents

Abstract

The present invention relates to devices for evaluating the flow of a fluid 11 towards a fluid 12 through a wall 13, the flow of the first fluid being through a leak path 14 located in the wall and whose inlet is located in the fluid 11 at a level greater than that in which its outlet in the fluid 12 is situated. The device according to the invention is essentially characterized by the fact that it comprises a relatively flexible mat 20 having a bearing surface 21 adapted to be pressed against the surface 22 of the wall 13, a sensor 30 having an active measuring window 31 for delivering a signal depending on the value of at least one of the following parameters: flow, pressure, means for mount the sensor in cooperation with the belt 20 so that its active window 31 is turned towards the space seen by the bearing face 21, and a management unit 40 for processing the signal outputted from the sensor 30. 30. Application at the detec leakage in particular dikes and channel rafts.

Description

The present invention relates to devices for evaluating the flow from a first fluid to a second fluid through a wall separating the first and second fluids. , the first fluid having a density greater than that of the second fluid and the device being adapted to be used in a medium where a gravitational force prevails thereby defining points at a high level and points at a low level, flow of the first fluid through a leak path in the wall and whose inlet is located in the first fluid to a level greater than that in which is located its outlet in the second fluid. These devices find a particularly advantageous application for the detection of leaks in particular dikes and riffles of 15 channels. It is well known that the managers of coated canals, both navigation and hydraulic exploitation, are confronted with the problem of locating water leakage zones in the dikes bordering these structures, that is to say ie areas where water suction or transit phenomena occur, as well as qualification and quantification of leakage flows. Because these hydraulic exchanges of the channels or analogs towards and through the dikes constitute potential risks of internal erosion of these dikes which must be treated as soon as they are located.

The techniques for detecting and locating the risk zones of known dikes are today exclusively qualitative and make it possible to globally locate portions of damp dikes, or potentially the seat of water circulation, without, however, being able to accurately determine the zones of dams. leakages at the baffles or walls of the canal itself, which are generally covered with sealing slabs and anti-wakes, nor qualify and quantify these leaks. Also, the object of the present invention is to provide a device as defined above, which is reliable and precise and which makes it possible to locate the facing areas at the origin of flows in the bodies of dam, which is effective for the detection and location with precision of the locations of "leaky" areas (joints, cracks, holes, ...) that "suck" the water from the channels or bodies of dikes / dams through their reputed waterproof coverings. More specifically, the present invention relates to a device for evaluating the flow of a first fluid to a second fluid through a wall separating said first and second fluids, the first fluid having a density greater than that of the second fluid and the device being suitable for use in a gravitational force medium thereby defining high points and low points, the flow of the first fluid being via a leak path located in a said wall and whose inlet is situated in the first fluid at a level higher than that in which its outlet is located in the second fluid, characterized in that it comprises: - a mat, said mat being relatively flexible and having a bearing face adapted to be pressed against the surface of said wall facing said first fluid, - at least one sensor, said sensor having an active measuring window and capable of outputting a signal depending on the value of at least one of the following parameters: flow, pressure, temperature, fluid flow velocity, presence of particles, density of the fluid, coloring of the fluid, means for mounting said sensor in cooperation with said belt so that its active measuring window is turned towards the space seen by said bearing surface of said belt, and - a management unit for processing said signal outputted from said said sensor. Other features and advantages of the present invention will become apparent from the following description given with reference to the accompanying drawings for illustrative but not limiting purposes, in which: Figure 1 is a block diagram of the device according to the invention in an application, detection, location, etc. Figure 2 is a diagrammatic section of a portion of the diagram shown in Figure 1, to explain the operation of the device. It is first of all specified that, in the figures, the same references designate the same elements, whatever the figure on which they appear and whatever the form of representation of these elements. Likewise, if elements are not specifically referenced in one of the figures, their references can be easily found by referring to the other figure. It is also stated that the figures represent an embodiment of the object according to the invention, but that there may be others that meet the definition of this invention. It is furthermore specified that, when, according to the definition of the invention, the subject of the invention comprises "at least one" element having a given function, the embodiment described may comprise several of these elements. Conversely, if the embodiment of the object according to the invention as illustrated comprises several elements of identical function and if, in the description, it is not specified that the object according to this invention must obligatorily comprise a particular number of these elements, the object of the invention may be defined as comprising "at least one" of these elements. It is also clarified that when, in the present description, an expression alone defines, without specific reference to it, a set of structural characteristics, these characteristics may be taken, for the definition of the object of the protection sought. when technically possible, either separately or in full and / or partial combination.

30 It is finally stated that, in the present description, if the adverb "substantially" is associated with a qualifier of a given means, this qualifier must be understood in the strict sense or approached.

With reference to the two appended figures, the present invention relates to a device for evaluating the flow of a first fluid 11 towards a second fluid 12 through a wall 13 separating these first and second fluids, the first fluid having a higher density. greater than that of the second fluid and the device being adapted to be used in a medium in which there is a gravitational force, thereby defining points at a high level and points at a low level, the flow of the first fluid being effected by a leak path 14 located in the wall and whose inlet is located in the first fluid at a level greater than that in which is located its outlet in the second fluid. The device comprises a mat relatively flexible and having a bearing surface 21 adapted to be pressed against the surface 22 of the wall 13 facing the first fluid 11; at least one sensor 30 having an active measuring window 31 and being able to output a signal that is a function of the value of at least one of the following parameters: flow, pressure, temperature, fluid flow velocity, presence of particles, density of the fluid, coloring of the fluid; means for mounting the sensor in cooperation with the belt 20 so that its active measuring window 31 is turned towards the space seen by the bearing face 21 of the belt 20; and a management unit 40 for processing the signal delivered at the output 32 of the sensor 30. The term "carpet" is used in the present description to define any means which makes it possible to produce a confinement enclosure around at least one given point. . very advantageously, because of the structural characteristics of the device defined above, the device further comprises means 50 for moving the belt on the surface 22 of the wall 13 facing the first fluid 11 and, preferably, means 51 to correlate the position of the belt 20 relative to at least one reference point of this surface 22. These means for moving the belt can be of any type, including traction means or autonomous tel operation means. As for the correlation means 51, they can be manual or automatic, for example by computer, possibly mechanical.

It is for this reason that they have been shown in FIG. 1 in dashed lines. According to a possible and advantageous embodiment, the means 50 for moving the belt 20 on the surface 22 of the wall 13 facing the first fluid 11, in any direction and in any direction whatsoever, consist of a winch 52 and a link 53 of which one end 54 is connected to the belt 20, its other end being connected to the drum of the winch 52, the link winding around the drum as the movement of the belt. According to a preferred embodiment, the signal delivered at the output 32 of the sensor 30 being transmitted by wire to the management unit 40, the link 53 and this signal transmission wire are connected to one another, for example in being juxtaposed integrally with one another, to ensure the safety of the transmission wire, since the traction link is of a much stronger nature than the transmission wire.

According to a very advantageous embodiment, FIG. 2, the bearing face 21 comprises cavities 35 which can be flexible or articulated with respect to each other and, preferably, the active measuring window 31 of the sensor is then situated substantially in the bottom of one of the cells 35. In order for the belt 20 to be both flexible and solid to allow reliable measurement results to be obtained, it is preferable that it be made of one of the following materials: rubber reinforced, molded PVC or ABS, polypropylene or propylene, elastomer, micro and / or two-component resins, etc. The device according to the invention, the structure of which has been defined above, has particularly advantageous applications for evaluating the leakage of a first fluid 11 to a second fluid 12 through a wall 13 constituting one of the following elements: dike; write off; barrage ; to be soldered; edge or bank of a river, a river, a channel, a reservoir, a tank, a basin, especially when the first fluid 11 is essentially water and the second fluid 12 is the ambient air of the Earth's atmosphere.

Such a device operates as follows: The belt 20 is first plated on the surface 22 of the wall 13, at a location which could be the seat of a water leak, so that its face 21, and therefore also the active measuring window 31, in contact with this surface 22. If the belt 20 covers at least one inlet of a leakage path 14, Figure 2, it is a kind of enclosure more or less tight confinement around the inlet of this leakage path between the surface 22 of the wall 13 and the bearing face 21 of the belt 20. The sensor 30 will then deliver a signal that is a function of the fluid flow and / or pressure in this containment enclosure around the entrance of the escape path 14, including input. This signal is analyzed in the management unit 40 which, for example by comparison with, in particular, pre-recorded charts and / or by calculations, delivers at its output 41 qualitative and / or quantitative information on the leak. Technicians can then intervene, for example to seal the leak before it gets worse. However, according to an important feature of the device, the belt 20 can be moved on the surface 22 of the wall 13, for example stepwise or continuously depending on the case, by indexing its successive positions with respect to an origin point of this surface 22, in particular thanks to the means 51. Consequently, in addition to qualitative and quantitative information on the leaks, the management unit then delivers location information for these leaks encountered during the movement of the belt on the surface 22 of 25. the wall 13. It is then obvious that the device according to the invention finds a particularly advantageous application for detecting and evaluating, that is to quantify and / or qualify any leaks in dikes and / or rafts of canals. navigation, water supply or the like, which are very long. Such an evaluation would be almost impossible to obtain with the techniques of the prior art.

In particular, in this case of application, the device according to the invention makes it possible to detect phenomena of suction (entanglements) at the joints of slabs and / or cracks, and through the various coatings which may constitute the facing of the works such as those mentioned above. The flow measurement can be carried out point by point or continuously on horizontal or transverse measurement strips. The surface confined by the carpet 20 must be as large as possible (1 to 2 m 2) so that it is able to conform to the surfaces to be studied and to allow their more or less tight insulation, in any case with a relatively large loss of charge. In the embodiment described above, the device comprises a sensor 30. However, preferably, it will comprise a plurality of sensors 30 perfectly located on the carpet, for example flow sensors for measuring the suction flow rate and quantify the volume and velocity of the fluids sucked into the escape paths, Figure 2. These possible flow measurements can be of all types. By way of example, measurements may be quoted by: - micro-reels; By sensors or ultrasonic Doppler effect adapted to the desired flow sensitivity, which have the advantage of an absence of fouling compared to mechanical reel-type systems; - by flowmeters with laminar elements or conventional thermal flowmeters; By flowmeters performing measurements by pressure difference, density variation, venturi effects, displacement of Vortex sensors, staining or tracer labeling.

Claims (9)

REVENDICATIONS1. A device for evaluating the flow of a first fluid (11) to a second fluid (12) through a wall (13) separating said first and second fluids, the first fluid having a greater density than the second fluid, the device being adapted for use in a gravitational force environment thereby defining high points and low points, the flow of the first fluid being via a leak path (14) located in said wall and whose inlet is situated in the first fluid at a level greater than that in which its outlet is situated in the second fluid, characterized in that it comprises: - a carpet (20), said carpet being relatively flexible and having a bearing face (21) adapted to be pressed against the surface (22) of said wall (13) facing towards said first fluid (11), - at least one sensor (30), said sensor having an active measuring window (31) and being fit outputting (32) a signal dependent on the value of at least one of the following parameters: flow, pressure, displacement of particles in suspension, coloring, means for mounting said sensor in cooperation with said belt ( 20) so that its active measuring window (31) faces the space seen by said bearing surface (21) of said belt (20), and - a management unit (40) for processing said delivered signal at the output (32) of said sensor (30). 25 2. Device according to claim 1, characterized in that it comprises means (50) for moving said belt on said surface (22) of said wall (13) facing said first fluid (11) and means (51) ) for correlating the position of said mat (20) with respect to at least one reference point of said surface (22). 3. Device according to claim 2, characterized in that the means (50) for moving said belt (20) on said surface (22) of said wall (13) facing said first fluid (11) are constituted by a winch (52) and a link (53), one end (54) of which is connected to said mat (20), its other end being connected to the drum of said winch (52). 4. Device according to claim 3, characterized in that, said output signal (32) of said sensor being transmitted by wire to said management unit (40), said link (53) and said transmission wire of the said signal are related to each other, it is the same in case of wave transmission. 5. Device according to one of the preceding claims, characterized in that said bearing face (21) comprises cells 35). 6. Device according to claim 5, characterized in that said active measuring window (31) of said sensor is located substantially in the bottom of one of the cells (35). 7. Device according to one of the preceding claims, characterized in that said belt (20) is made of one of the following materials: reinforced rubber, molded PVC or ABS, polypropylene, propylene, elastomer, microcomponent resins, resins two-component. 8. Device according to one of the preceding claims, characterized in that said wall (13) is at least one of the following elements: dike; write off; barrage ; to be soldered; edge or bank of a river, a river 25 of a canal, a reservoir of water. 9. Device according to one of the preceding claims, characterized in that said first fluid (11) is essentially water and the second fluid (12) is the ambient air of the Earth's atmosphere. 30