FR2867793A1 - River overflow controlling device, has collectors with inlets to recover part of flood water and outlets to evacuate water in conduits, and guiding partitions progressively reducing evacuated water speed during water evacuation - Google Patents

Abstract

The device has multiple collectors (3) provided with inlets (3a) to recover a part of flood water and outlets (3b) to evacuate the flood water in conduits (4) destined to transport the flood water to a discharge zone (5), distinct from flooded zones (2), that is able to reabsorb the flood water. Guiding partitions progressively reduce speed of the evacuated water during evacuation of the water in the discharge zone.

Description

DEVICE FOR CONTROLLING FLOOD OVERFLOW DESCRIPTION

  FIELD OF THE INVENTION The invention relates to a device for preventing the floodwaters of a watercourse from overflowing and flooding adjacent areas.

BACKGROUND TECHNOLOGY

  In times of high water, the waters of a watercourse often leave the bed of the stream and flood the adjacent areas, causing a great deal of damage to the fauna and flora, but also to the houses.

  The solutions generally implemented are: - to regularly maintain or even enlarge the bed and enhance the banks to better channel water; - to create dikes to protect the flood zones.

  Unfortunately, in practice, these solutions have not proven effective for some floods where the damage has been significant, including human lives.

Claims (1)

SUMMARY OF THE INVENTION The invention therefore aims to provide a device for preventing the floodwaters of a watercourse from overflowing and flooding adjacent areas. The device, according to the invention, is essentially characterized in that it comprises at least one collector, placed in the bed thereof, provided with at least one inlet capable of recovering part of the floodwaters and at least one outlet capable of evacuating them in at least one pipe intended to convey them to a discharge zone, distinct from the flood zones, suitable for resorbing them. The speed of the water is, at ground level, smaller than in the nozzle and counts the thrust of the water in it, the level of flood drops after each collector to be spread at a distance, for example to 50 Kms from the collector. According to embodiments of said device: - the inputs of the collectors are arranged downstream of the current and are inclined in the direction thereof; - The walls of the collectors, arranged upstream of the current, are provided with shields, cone-shaped general fraction, sized to reduce the impacts of the current and detritus carried by said current on said collectors, by deviating; - The collector inputs are provided with grids consisting of bars whose outer edges overhang the bars downstream. The collectors may be arranged: in the transverse direction of the watercourse, offset or not, their number being a function of the volume of flood to be recovered and the width of the bed of the watercourse; - in the longitudinal direction of the watercourse, their number and the distance separating them depending on the volume of flood to be recovered. Pipes can be buried in the watercourse bed in the case of dry watercourse outside the flood period and outside it for those whose beds are still occupied by water. The pipes will preferably be arranged parallel to one another. The discharge zone may advantageously be the sea. PRESENTATION OF THE FIGURES The characteristics and advantages of the invention will appear more clearly on reading the detailed description which follows of at least one embodiment of the invention. preferred embodiment thereof given by way of non-limiting example and shown in the accompanying drawings. In these drawings: FIG. 1 is a general plan view of the device according to the invention, implanted in a watercourse, also mentioning the adjacent zones to be protected, the path of the recovered water and the discharge zone of these waters; this; - Figure 2 is a detailed vertical sectional view in the direction of the current, a collector whose base is supported by two piles; FIG. 3 is a front view of the collector of FIG. 2; - Figure 4 is a side view of the anchoring means of the junction of two adjacent pipes, provided with its base and its anchoring pile; - Figure 5 is a detail sectional view of the bars of the grid placed at the entrance of the collector, highlighting their shape and their arrangement; FIG. 6 is a general plan view of the outlet of a pipe in the case of high flow rates; - Figure 7 is a general top view of the device according to the invention, implanted in a stream of small width. DETAILED DESCRIPTION OF THE INVENTION The device represented in the figures, intended to prevent the flood waters of a watercourse (1) overflowing and flooding zones (2) bordering, comprises at least one collector (3), placed in the bed thereof, provided with at least one inlet (3a) adapted to recover a portion of the flood water and at least one outlet (3b) adapted to evacuate in at least one pipe (4) intended transporting them to a discharge zone (5), distinct from the flood zones (2), capable of resorbing them. This zone may be located at least 50 km from the nozzle. According to embodiments of said device: - the inputs (3a) of the collectors (3) are disposed downstream of the current and are inclined in the direction thereof for not receiving full whip detritus carried by the current; - The walls (3c) of the collectors (3), arranged upstream of the current, are provided with shields (3d), generally conical fraction, in particular semi-conical shape, with a gradual slope, made in particular of solid concrete, sized to reduce the impacts of the current and detritus carried by said current on said collectors; - The inputs (3a) of the manifolds (3) are provided with grids (6) consisting of bars whose outer edges (6a) overhang the bars located downstream to facilitate the evacuation of small debris by the current; the outlets (3b) of the collectors (3) belong to the downstream walls (3f) of said collectors; - Each collector (3) comprises a base (3e) which rests on at least one pile (7), driven into the stream bed, dimensioned to maintain said collector stable regardless of the current flow and the type of detritus carried by it, - each collector (3) is provided with at least one bar (8), interchangeable depending on the wear, made in particular of cast iron or steel, arranged in the direction of the current and dimensioned for to promote the sliding of the large detritus (trees, branches, beams) of the front part of the shield (3d) towards the outside of the rear part of the inlet (3a) of said collector; said bar being attached to the shield by any appropriate means adapted to allow its replacement in case of wear. - each junction (4a) of two adjacent ducts (4), which are buried in the bed of the watercourse, is connected to an anchoring means (9) which comprises a base (9a) which rests on at least one pile (7), embedded in said bed, dimensioned to maintain said stable junction. In the case of streams (1) of small width, especially less than 10 meters, each manifold (3) is associated with walls (13) disposed on the opposite banks (la) and (1b) opposite that and dimensioned to protect said banks from turbulence caused by its presence. The collectors (3) can be arranged: - in the transverse direction of the watercourse, shifted or not, their number being a function of the volume of flood to be recovered and the width of the bed of the stream; - in the longitudinal direction of the watercourse, their number and the distance separating them depending on the volume of flood to be recovered; or a combination of these two provisions. Several collectors can be connected to the same channel sized to absorb the water recovered by them. The pipes (4) may consist of nozzles of diameter between 2 and 3 meters. They can be buried 2 to 3 meters deep. The grid can be made of cast iron to ensure better hold on the collector and prevent depravations. Piles can be driven up to 20 meters deep if necessary. Each manifold is arranged so that its opening is located above the normal water level of the stream. The space between two collectors arranged transversely must be sufficient to avoid plugs due to large detritus. The pipes can lead to levels located more than 3 meters below that of the sea. In the case of several manifolds opening into the same pipe (4), the discharge zone is equipped with guide walls (10), flared, and piles (12), inclined in the direction of the current to avoid the retention of detritus, arranged and sized to gradually reduce the speed of water discharged in order not to damage the environment. A slab (11) can be made on the ground over the entire surface of reducing the speed of water. A buzzer can be provided on at least one collector to announce the beginning of a flood. Beacons may also be provided to signal to the boats the presence of collectors. Of course, the invention is not limited to the embodiments described and shown for which we can provide other variants, in particular in: - the nature and dimensions of the constituent elements of the device according to the invention; - the number of collectors and their layout and the number of pipes for a given watercourse; - the type of watercourse; without departing from the scope of the invention. 6 claims   1- Device designed to prevent the flood waters of a watercourse (1) overflow and flood areas (2) bordering, characterized in that it comprises at least one collector (3), placed in the bed it, provided with at least one inlet (3a) adapted to recover a portion of the floodwater and at least one outlet (3b) adapted to evacuate in at least one pipe (4) for conveying to a discharge zone (5), distinct from the flood zones (2), suitable for resorbing them.   2- Device according to claim 1, characterized in that inputs (3a) of the collectors (3) are disposed downstream of the current and are inclined in the direction thereof.   3- Device according to claim 1, characterized in that the walls (3c) of the collectors (3), arranged upstream of the current, are provided with shields (3d), generally conical shaped form, sized to reduce the impacts of the current and detritus carried by said current on said collectors.   4- Device according to claim 2, characterized in that the inputs (3a) of the manifolds (3) are provided with grids (6) consist of bars whose outer edges (6a) overhang the bars located downstream.   5- Device according to claim 1, characterized in that each collector (3) is provided with at least one bar (8), interchangeable, arranged in the direction of the current and dimensioned to promote the sliding of large detritus of the party front shield (3d) outwardly from the rear portion of the inlet (3a) of said manifold.   6. Device according to claim 1, characterized in that each collector (3) comprises a base (3e) which rests on at least one pile (7), embedded in the bed of the stream, sized to maintain stable said collector regardless of the flow of the current and the type of detritus carried by it.   7- Device according to claim 1, characterized in that, in the case of watercourse (1) of small width, each collector (3) is associated with walls (13) disposed on the opposite banks (la) and (1b) facing it and dimensioned to protect said banks from turbulence caused by its presence.   8- Device according to claim 1, characterized in that each junction (4a) of two adjacent pipes (4), which are buried in the bed of the stream, is held by an anchoring means (9) which comprises a base (9a) which rests on at least one pile (7), driven into said bed, sized to maintain said junction stable.   9- Device according to any one of the preceding claims, characterized in that the collectors (3) are arranged in the transverse direction of the watercourse, shifted or not, their number being a function of the volume of flood to be recovered and the width of the stream bed.   10- Device according to any one of the preceding claims, characterized in that the collectors (3) are arranged in the longitudinal direction of the watercourse, their number and the distance separating them depending on the volume of flood to be recovered.   11- Device according to claim 9 or 10, characterized in that, in the case of several manifolds opening into the same pipe (4), the discharge zone is equipped with guide walls (10), flared, and piles (12), inclined in the direction of the current, arranged and dimensioned to gradually reduce the speed of the discharged water in order not to damage the environment.