FR3022269A1 - DEVICE AND METHOD FOR CURING A COURSE OF WATER OR A PLANT OF WATER - Google Patents

Abstract

The device (10) for cleaning a stream or a body of water comprises: - a boat (105) supporting a mill, - the mill (110) for grinding plants present in the course of water or in the body of water having a plant inlet (115) and a crushed plant outlet (120) and - a floating vessel (125) connected to the mill outlet for collecting crushed plant chips.

Description

. TECHNICAL FIELD OF THE INVENTION The present invention relates to a device and a method of cleaning a stream or a body of water. It applies, in particular, to the cleaning of streams and water bodies.

STATE OF THE ART Watercourses, natural or artificial, make it possible to limit the risks of flooding of soils by the flow of surplus local rainwater into progressively larger streams or water bodies. allowing the storage of these surpluses. These rivers carry, in addition to water, sediments causing their gradual siltation. In particular, this natural phenomenon is reinforced in geographical areas with flat topography, where the soil is particularly susceptible to erosion or in streams with low flow. To these natural sediments can be added industrial and urban waste. In addition, invasive plants can develop in streams, limiting the flow capacity of the water. These invasive plants can also be a threat to the biodiversity of the watercourse. These plants are, for example, Jussies (Ludwigia sp.), Dense Egeria (Egeria densa), Elodeae (Elodea sp.), Lagarosiphon (Lagarosiphon major), and Cloverleaf (Myriophyllum aquaticum). The uprooting, as practiced in the current systems, of these plants is not sufficient to limit their expansion. In order to restore and maintain the flow capacity of rivers and to limit the impact on biodiversity of invasive plants, it is necessary to carry out a cleaning action which consists of removing the sediments and plants from these plants. stream. In current systems, a tractopelle extracts the sediments and plants from the stream and feeds a bag of woven synthetic material, this pocket being usually abandoned on a bank after the cleaning action has been performed.

These systems do not make it possible to sustainably reduce the amount of invasive plants present in the stream. On the other hand, these systems have a bad ecological footprint due to the abandonment of synthetic materials, especially plastics, in nature.

OBJECT OF THE INVENTION The present invention aims to remedy all or part of these disadvantages. For this purpose, according to a first aspect, the present invention is directed to a device for cleaning a watercourse or a body of water, which comprises: - a boat supporting a mill, - the mill for grinding plants present in the stream or in the body of water having a plant inlet and a crushed plant outlet and - a floating vessel connected to the mill outlet for collecting crushed plant chips. Thanks to these provisions, the device can perform the cleaning of any watercourse or water body navigable by the boat. In addition, the grinding of plants allows a more dense plant material storage, which reduces the dimensions of the container.

In embodiments, the device which is the subject of the present invention comprises a plant suction means configured to supply the input of the mill with the sucked plants. These embodiments facilitate the feeding of plants to the mill by sucking the plants close to the device.

In embodiments, the device which is the subject of the present invention comprises a means of section, of stems of plants to be ground, immersed in the watercourse or in the body of water. The advantage of these embodiments is to facilitate the feeding of plants to the mill by preventing underwater plants from being out of reach of the mill. In embodiments, the device that is the subject of the present invention comprises means for sterilizing seeds that are ground together with the plants and that have passed through the mill.

These embodiments limit the seed proliferative capacity so as to avoid the proliferation of plants once the ground vegetable material has been extracted from the container or into the container. In embodiments, the container is a geotextile pouch having at least a portion of plant fibers. The advantage of these embodiments is that they reduce the ecological footprint of the pocket in the case where the pocket is placed on a bank once filled with plant material. In embodiments, the container has at least a non-woven hemp portion. These embodiments allow a low cost realization, in addition to improving the ecological footprint, of the container. In embodiments, the device object of the present invention comprises a means of stalling sediments attached to a wall of the body of water or the watercourse. The advantage of these embodiments is that they make it possible to grind the roots of fixed plants in the sediments. According to a second aspect, the present invention relates to a method of cleaning a watercourse or a body of water, which comprises: a step of grinding plants present in the watercourse or the plan d water by a crusher supported by a boat and a step of collecting crushed plant chips in a floating vessel associated with the crusher. Since the aims, advantages and characteristics of the process that are the subject of the present invention are similar to those of the device that is the subject of the present invention, they are not recalled here. In embodiments, the method which is the subject of the present invention comprises, upstream of the grinding stage, a step of suctioning the plants. These embodiments facilitate the feeding of plants to the mill by sucking the plants close to the device. In embodiments, the method which is the subject of the present invention comprises a step of sectioning the stems of the plants to be ground.

The advantage of these embodiments is to facilitate the feeding of plants to the mill by preventing underwater plants from being out of reach of the mill.

BRIEF DESCRIPTION OF THE FIGURES Other advantages, aims and particular characteristics of the invention will become apparent from the following nonlimiting description of at least one particular embodiment of the device and method that are the subject of the present invention, with reference to the accompanying drawings. , in which: - Figure 1 shows, schematically and seen from above, a particular embodiment of the device object of the present invention; - Figure 2 shows, schematically, a particular flow diagram of the process of the present invention 3 represents, schematically and seen from above, a particular embodiment of the pocket object of the present invention, FIG. 4 schematically represents a particular flow diagram of steps of the method that is the subject of the present invention. DESCRIPTION OF EXAMPLES OF EMBODIMENT OF THE INVENTION The present description is given in a non-limiting manner. For the remainder of this document, the term "geotextile" is used to refer to a fabric generally made of synthetic material configured to allow water to pass through. FIG. 1, which is not to scale, shows a sectional view of an embodiment of the device 10 which is the subject of the present invention. This device 10 for cleaning a stream or a body of water comprises: - a boat 105 supporting a mill, - the mill 110 for grinding plants present in the watercourse or in the plan d water having a plant inlet 115 and a crushed plant outlet 120; a section means 135 of plant stalks to be milled immersed in the watercourse or body of water; stalling of sediments attached to a wall of the body of water or of the watercourse, - a plant suction means 130 configured to feed the inlet 115 of the mill 110 with the sucked plants, - a means 140 for sterilization of seeds ground together with the plants and having passed through the mill 110 and - a floating vessel 125 connected to the mill outlet for collecting crushed plant chips. The boat 105 is, for example, a motor boat having a source of electrical power from the rest of the device 10. This power supply can be generated by the operation of the motor 105 of the boat or by an independent power source mounted on board the boat 105, such as a battery or a battery for example. The mill 110 comprises, for example, a rotating motorized portion coupled to the suction means 130, the rotating motorized portion being equipped with blades mounted on a rotary shaft set in motion by a hydraulic motor. This mill allows the cutting and unclogging of the material sucked into the inlet 115 for plants. The blades are mounted, for example, on the rotating motorized part rotated in front of a mouth of the suction means 130. In variants, the actuation of the suction means 130 causes the mill 110 to be actuated. In other variants, the suction means 130 and the grinder 110 are independently controlled. The blades are rotated, for example, by a hydraulic motor. The section means 135 is, for example, a blade attached to a blade holder, which blade holder is movable. The device 10 comprises a means for positioning the blade support so as to immerse the blade support in the stream or in the body of water to be treated. In variants, the section means 135 comprises two blades each supported by a blade support. These blade supports are positioned so that, when the boat 105 is advancing on a stream, the blades cover at least half the width of the stream.

The stalling means 145 is, for example, a rubber or metal blade oriented obliquely towards the base of the bed of the stream or the body of water. This blade makes it possible to suspend sediments fixed to the base of the bed and torn from the passage of the blade set in motion by the boat 105. The stalling means 145 may be associated with the means of section 135 in the case of a joint support of stall means 145 and section means 135 by a support arm. In variants, this stalling means 145 is a set of nozzles configured to project water, sucked into the stream or the body of water, under pressure on the base of the bed upstream of a rigid blade recovery of suspended sediments. In preferred embodiments, the device 10 comprises a means for recovering cut plants and suspended sediments supplying the suction means 130. This recovery means is, for example, formed by two arms oriented towards the front. of the boat 105 so as to direct the cut plants and sediment to the suction means 130, an inlet is positioned between the two arms. The suction means 130 is, for example, a hydraulic pump configured to suck water, plants and sediments near an opening at least partially immersed in the stream or the body of water. The sucked materials are entered into the mill 110. The milled materials are discharged through an outlet 120 of the mill 110. In variants, this suction means 130 has a suction flow rate of 430 m3 per hour.

The materials exiting the mill 110 pass through the sterilization means 140. This sterilization means 140 is, for example, a microwave oven configured to irradiate the seeds exited from the mill 110. The suction means 130 also acts as a means of sterilization. ejection of crushed materials into the container 125.

The container 125 is, for example, a geotextile bag having at least a portion of plant fibers. These plant fibers being, for example, nonwoven hemp. This vegetable fiber geotextile comprises, for example: crushed plant stems with a diameter greater than five millimeters, plant stem fragments and plant fibers partially attached to said crushed stems, the stems and fragments of stems being intertwined by mechanical bonds produced by splashing water.

This geotextile 115 is produced, for example, by the implementation of a method comprising: a step of disposing of plants in a sheet of crushed plant stems with a diameter greater than five millimeters, fragments of plant stems and of raw vegetable fibers partially attached to said crushed stems and a step of spraying water on said web to form mechanical bonds between crushed plant stalks, plant stem fragments and plant fibers of said web.

This process comprises, for example: a plant introduction stage, in the form of large plants, such as stems measuring up to 2.5 meters, for example, a step of partial reduction of the plants in stems to form plants. rod elements of a length preferably greater than twenty centimeters, and preferably greater than fifty centimeters, a step of crushing the plants to form a sheet of crushed plant stems with a diameter greater than five millimeters, fragments of plant stems and raw vegetable fibers partially attached to said crushed stems, a step of orienting the stems and / or fibers in different directions, a step of harmonizing the thickness of the ply of fibers, a step of incorporation into the fibers of ropes or cables parallel to the length of the layer of fibers, a step of creating mechanical connections between the the fibers of the sheet, in the thickness of the sheet, by spraying water under pressure on the plant fibers or, alternatively, with a multi-needle stitching machine. The plant material used for the implementation of this method is, for example, a set of hemp fibers.

This container 125 is configured to float, even full, on the watercourse or the body of water because of the composition of this container 125. In variants, this container 125 comprises floats.

FIG. 2 shows a particular flow diagram of the process of the present invention. This method 20 of cleaning a stream or a body of water comprises: - a step 220 of stem section of the plants to be ground, - a step 215 of sucking plants, - a step 205 of grinding plants present in the watercourse or the body of water by a crusher supported by a boat and - a step 210 for collecting chips of crushed plants in a floating container associated with the mill. Step 220 of section of stems of the plants to be ground is carried out, for example, by means of section 135 as described with reference to FIG. 1. The suction step 215 is carried out, for example, by a suction means 130 as described with reference to FIG. 1. The grinding step 205 is carried out, for example, by a grinder 110 as described with reference to FIG. 1. The collecting step 210 is carried out for example, by a container 125 as described with reference to Figure 1. It is observed in Figure 3, a particular embodiment of the pocket 30 object of the present invention. This pocket 30 for plant material comprises: - a mesh 305 made of geotextile for retaining the plant material, this mesh being configured to be wound so as to form a tube comprising, at one end, an inlet for the plant material, - a means 310 for maintaining the mesh in wound position, - means 315 for closing the other end of the tube, - means 320 for unwinding the bag filled, at least partially, with plant material to extract the plant material which comprises the minus a strip 325 of thermoplastic polymer, a means 330 for flotation on a surface of water and a means 335 for fixing to a means for moving the bag filled, at least partially, with plant material. The mesh 305 in geotextile is, for example, a tarpaulin made of synthetic material comprising at least one portion of nonwoven plant fiber. This plant fiber is, for example, non-woven hemp fiber. This flexible sheet is rectangular in shape so that, once this rectangle wound, the sheet adopts a tubular shape initially open at both ends after winding. One of the ends is folded and closed by the closing means 315 so as to form a pocket with the tube. This closure means 315 is, for example, a self-gripping fabric strap positioned by a user so as to be wrapped around the tube and clamp the end to be closed. In variants, this closure means 315 is a set of hooks associated with elastics wound around the tube and attached to eyelets present on the mesh 305.

The mesh 305 is configured to withstand an input pressure of plant material greater than eight bars. Preferably, the inlet pressure is ten bars. In preferred variants, a secondary mesh in biodegradable geotextile is wound inside the mesh 305 once this mesh 305 is wound so that the secondary mesh matches the tubular shape of the mesh 305. The purpose of this mesh 305 is retain the entered plants by allowing a liquid phase, mainly comprising water, to leave the mesh 305. The purpose of the secondary mesh is to keep the dried plants in shape once the mesh has been unwound. This secondary mesh, which is biodegradable in the same way as the material used, makes it possible to limit the ecological footprint of the device 30. The tube formed by the wound mesh 305 is held in this position by the holding means 310. This holding means 310 is, for example, a means for fixing a portion of the mesh 305 to another portion of the mesh 305, such as a set of hooks on the one hand and eyelets on the other hand for example. The unwinding means 320 is, for example, a set of strips 325 made of thermoplastic polymer, such as Kevlar (registered trademark) for example, associated with one side of the mesh 305. When a traction is performed on this unwinding means 320, the tube formed by the mesh 305 is unrolled mechanically.

The flotation means 330 is, for example, a set of floats positioned along the mesh 305. The fixing means 335 is, for example, a set of eyelets for fixing hooks, for example, these hooks being associated with a machine that moves the pocket from a stream to a hard surface near the stream. FIG. 4 shows a particular flow diagram of the process 40 of the present invention. This plant material storage method 40 comprises: a step 405 for winding a pocket as described with reference to FIG. 3; a step 410 for positioning the pocket in a watercourse or a plan of water, a step 415 of cleaning the watercourse or the body of water comprising a step of grinding plant material and a step of feeding the inlet of the bag with this plant material, a step 420 extraction of the pocket of the stream or the body of water, - a step 425 for depositing the pocket on a hard surface and - a step 430 of unfolding the pocket so as to release the plant material, retained in the pocket, on the hard surface. The winding step 405 is performed, for example, by a user folding the mesh of the pocket so as to create a flattened tube shape closed at one end.

The positioning step 410 of the pocket in a watercourse is carried out, for example, by associating the bag with a boat comprising a mill, so that the inlet of the bag is connected to the outlet of the mill. When the boat advances in the watercourse, the pocket is mechanically dragged into the stream and floats on the surface of this stream.

The cleaning step 415 is carried out, for example, by the device 10 described with reference to FIG. 1, in which the container described corresponds to the bag. The extraction step 420 of the bag is performed, for example, by attaching to the pocket hooks for pulling, by a machine, the bag out of the bed of the stream or the body of water. In variants, the extraction 420 is performed by pulling the boat out of the water, the boat driving the pocket out of the water. The deposition step 425 is performed, for example, by removing the fasteners used to extract the pocket from the watercourse or the body of water.

The unwinding step 430 is performed after a drying period of the pocket for example. During this unwinding step 430, traction is performed on thermoplastic polymer strips so that the pocket is unwound and the contents of the bag poured onto the hard surface.

Claims (10)

REVENDICATIONS1. Device (10) for cleaning a stream or a body of water, characterized in that it comprises: a boat (105) supporting a mill, the mill (110) for grinding plants present in a plant the stream or body of water having a plant inlet (115) and a crushed plant outlet (120) and a floating vessel (125) connected to the mill outlet for collecting crushed plant chips . 2. Device (10) according to claim 1, which comprises a means (130) of plant suction configured to feed the inlet (115) of the mill (110) with the sucked plants. 3. Device (10) according to one of claims 1 or 2, which comprises means (135) section, plant stalks to be grinded, immersed in the stream or in the body of water. 4. Device (10) according to one of claims 1 to 3, which comprises means (140) for sterilization of seeds milled together with plants and having passed through the mill (110). 5. Device (10) according to one of claims 1 to 4, wherein the container (125) is a geotextile pouch having at least a portion of plant fibers. 6. Device (10) according to claim 5, wherein the container (125) comprises at least a portion of non-woven hemp. 7. Device (10) according to one of claims 1 to 6, which comprises means (145) for stalling sediments attached to a wall of the body of water or watercourse. 8. A method (20) for cleaning a watercourse or a body of water, characterized in that it comprises: - a step (205) of grinding plants present in the watercourse or the water body by a crusher supported by a boat and - a step (210) for collecting chips of crushed plants in a floating container associated with the mill. 9. Process (20) according to claim 8, which comprises, upstream of the grinding step (205), a step (215) for sucking plants. 10. Method (20) according to one of claims 8 or 9, which comprises a step (220) of stem section plants to grind.10.