FR2998664A1 - Venturi channel for generating turbulences in free surface flow of water to measure flow in water controlling applications by local authorities, has reinforcement comprising sides with openings to allow flow of concrete during casting step - Google Patents

Abstract

The channel (1) has side walls (10, 11) defining a localized shrinkage (101) of section of the channel, where the channel is made of laminated composite material. Longitudinal reinforcement (20) is extended longitudinally on an external face of each of the side walls. The reinforcement includes two sides (20a, 20b) inclined with respect to the side wall, where each of the sides includes openings (200a, 200b) allowing flow of concrete during casting step around the channel. The reinforcement includes a profile e.g. Omega profile.

Description

FIELD OF THE INVENTION The present invention relates to a venturi channel of laminated composite material.

BACKGROUND OF THE INVENTION In the context of water control by local authorities, specially sized channels are used to generate turbulence in free surface flows in order to measure the flow rate.

As illustrated in FIG. 1, such a channel 1 has two lateral walls 10, 11 which are arranged so as to form a narrowing 101 of the section of the channel, between an upstream portion 100 called the fluvial regime where the walls are parallel and a downstream region 102 said torrential regime where the constriction 101 generates a significant pressure drop in the flow of water.

Arrow F indicates the direction of flow. This region 102 of torrential regime is followed, downstream, a new portion 103 of fluvial regime, which can extend in another channel (not shown) arranged downstream of the channel comprising the narrowing. Insofar as the effect produced by the narrowing on the flow is a Venturi effect, such a channel is typically referred to as the "Venturi channel". There is also an international standard (ISO 4359) which imposes the geometry of these channels, with different ranges of dimensions depending on the flow rate to be measured. It is then possible to establish, for each channel, an unambiguous relationship between the flow rate and the water level upstream of the narrowing, which can be measured by means of a level sensor. In general, a venturi channel is made of laminated composite material, that is to say formed of several layers of glass mat coated with a polyester or epoxy resin, shaped on a mold complementary to the section of the channel. form. The inner face of the side walls and the bottom is also covered with a coating called "gelcoat" adapted to contact with water. Said channel is set up in a water control installation, and held in position by pouring concrete to the upper surface of the side walls. However, deformations of the side walls are frequently observed after a certain period of use.

Thus, even if the Venturi channel directly from manufacturing is in accordance with the aforementioned standard, this compliance is no longer ensured once the Venturi is in place in the water control installation.

However, these deformations are detrimental to flow measurement since they distort the results of the measurements. To remedy this, it is possible to periodically recalibrate the channel parameters to take account of the evolution of its section and correct accordingly the flow measurement obtained. However, these necessary corrections are binding for the operators responsible for carrying out these measurements, and do not make it possible to guarantee that the measured flow rate is fair at each moment. An object of the invention is therefore to design a Venturi channel which is not subject to such deformations. BRIEF DESCRIPTION OF THE INVENTION For this purpose, the invention proposes a Venturi channel of laminated composite material comprising two lateral walls defining a localized narrowing of the section of said channel, characterized in that it comprises, on the outer face of each of said lateral walls, at least one reinforcement extending longitudinally and in that each reinforcement comprises two sidewalls inclined with respect to the side wall, each of said sides having orifices allowing the flow of concrete during a concrete pouring step around of said channel.

Advantageously, each reinforcement has an omega type profile. According to one embodiment of the invention, the channel comprises at least two parallel longitudinal reinforcements on the outer face of each side wall. Preferably, each reinforcement is integrated between two lamination layers of said channel.

In a particularly advantageous manner, the orifices of one and the same reinforcement are arranged in pairs facing each other in the vertical direction. BRIEF DESCRIPTION OF THE DRAWINGS Other features and advantages of the invention will emerge from the detailed description which follows, with reference to the appended drawings in which: FIG. 1 is a basic view of a Venturi channel, FIG. is a perspective view of a Venturi channel according to an embodiment of the invention; - Figure 3 shows side views and in section of such a channel; - Figure 4 is a perspective view of a Venturi channel according to another embodiment of the invention.

DETAILED DESCRIPTION OF THE INVENTION The inventors have found that a deformation factor of the Venturi channel after the pouring of the concrete lies in the absence of cohesion between the composite material of the channel and the concrete.

However, because of this lack of cohesion, aging of the structure results in the appearance of cracks in the concrete in the vicinity of the channel. These cracks contribute to the deformation of the walls. To remedy this, the invention proposes to provide the side walls of the channel with a reinforcement not only to stiffen said walls but also to allow better adhesion between the channel and the concrete poured around it. Thus, said reinforcement has holes allowing the concrete to flow through them and having the effect of securing the channel in the concrete once it is solidified. Figure 2 is a perspective view of a Venturi channel according to one embodiment of the invention and Figure 3 shows side views, in section A-A and in section B-B of said channel. The channel 1 comprises two side walls 10, 11 extending on either side of a bottom wall 12 and which form a narrowing 101 of the section of the channel, intended to obtain the desired Venturi effect.

In the position of use of the Venturi channel, said walls 10, 11 are vertical. Said channel 1 is an open channel, that is to say that its opposite side to the bottom 12 is not closed by a wall. On the outer face of the side wall 10 extends a longitudinal reinforcement 20. Preferably, said reinforcement 20 extends over the entire length of the channel, in a horizontal direction. Said reinforcement 20 has two sides 20a, 20b inclined relative to the wall 10. Advantageously, the reinforcement 20 has an omega-type profile. By this is meant that the reinforcement has, on either side of the flanks 20a, 20b which project from the wall 10, two retaining flanks which extend parallel to the wall. These retaining flanks allow integration of the reinforcement 20 to the channel 1 during its manufacture by lamination. Indeed, once a portion of the layers of glass mat have been placed on the mold, each reinforcement is positioned so that the retaining flanks are in contact with the glass mat already in place on the mold, then the whole is covered with a new layer of glass mat and coated with resin. The reinforcement is thus integrated into the structure of the channel itself, which prevents any separation from it.

The flanks 20a, 20b which protrude from the side wall may be arranged in a triangle, as illustrated in the accompanying figures. However, the geometry of said flanks and their junction may vary without departing from the scope of the present invention.

For example, the flanks 20a, 20b are not necessarily planar but can be curved. On the other hand, instead of a linear junction between the flanks 20a, 20b, one can envisage a junction by a flat or rounded surface. The distance between the junction between the flanks 20a, 20b and the side wall 10 is chosen as a function of the height of said wall, in order to obtain the desired degree of stiffening. Similarly, a reinforcement 11 extends on the outer face of the opposite lateral face 11. Thanks to the omega conformation of the reinforcement, a significant stiffening of the walls 10 and 11 is obtained, which contributes to avoiding deformations subsequent to the casting of the concrete. In addition, each inclined flank 20a, 20b of the reinforcement is provided with one or more orifices 200a, 200b. These orifices are sized to allow the flow of concrete during the pouring stage of the concrete.

Preferably, the orifices 200a, 200b of each sidewall are arranged in pairs facing each other in the vertical direction of gravity, so that the concrete having passed through an orifice 200a and then the corresponding orifice 200b forms a stud. extending vertically between said orifices and forming an integral part of the volume of concrete poured outside the reinforcement.

Once pouring is complete, there is a certain volume of concrete within the volume defined by the inclined flanks 20a, 20b and the outer face of the side wall, which forms a continuous volume with the concrete surrounding externally the reinforcement. Advantageously, the number and size of the orifices are defined so that, after pouring, the concrete does not completely fill the internal volume of the reinforcement, but only forms studs forming a continuous volume with the concrete surrounding the outside of the concrete. reinforcement. The skilled person is able to define the appropriate section of these holes to allow the passage of concrete through them. Although the orifices are shown in circular shape in the figures, it is obvious that one could choose any other form without departing from the scope of the present invention.

In the case of a large Venturi channel, it is possible to set up several reinforcements on the outer face of each side wall, so as to improve the stiffening and securing in the concrete. Thus, FIG. 4 illustrates in perspective a Venturi channel in which two lateral reinforcements 20, 22 arranged on the external face of the side wall 10. Similarly, two other reinforcements (not visible in this figure) are arranged symmetrically on the outer face of the opposite side wall 11. Said reinforcements are similar to the reinforcement 20 described above with reference to Figures 2 and 3 and will therefore not be described in more detail.

It goes without saying that one can adjust the size and the number of longitudinal reinforcements without departing from the scope of the invention. Furthermore, the invention applies to any open channel providing a Venturi effect, whether or not it meets the dimensional specifications of the aforementioned standard.

Claims (5)

REVENDICATIONS1. Venturi channel (1) made of laminated composite material comprising two side walls (10, 11) defining a localized narrowing (101) of the section of said channel, characterized in that it comprises, on the outer face of each of said sidewalls (10 11), at least one longitudinally extending reinforcement (20, 21) and in that each reinforcement (20, 21) comprises two sidewalls (20a, 20b, 21a, 21b) inclined with respect to the side wall (10, 11), each of said flanks having orifices (200a, 200b) allowing the flow of concrete during a concrete pouring step around said channel. 2. Channel according to claim 1, characterized in that each reinforcement has an omega type profile. 3. Channel according to one of claims 1 or 2, characterized in that it comprises at least two parallel longitudinal reinforcements on the outer face of each side wall. 4. Channel according to one of claims 1 to 3, characterized in that each reinforcement is integrated between two layers of said channel lamination. 5. Channel according to one of claims 1 to 4, characterized in that the orifices (200a, 200b) of each sidewall (20a, 20b) of a reinforcement are arranged in pairs facing each other in the vertical direction. .