CA2955552C - Device and method for dredging a watercourse or body of water, bag for plant matter, and method for storing plant matter - Google Patents

Abstract

The invention relates to a device (10) for dredging a watercourse or body of water, comprising a watercraft (105) which supports a grinder, the grinder (110) for grinding plants found in the watercourse or body of water comprising an inlet (115) for plants and an outlet (120) for ground plants, and a floating receptacle (125) which is connected to the outlet of the grinder in order to collect the scraps of ground plants.

Description

DEVICE AND METHOD FOR CLEANING A WATER COURSE OR
OF A BODY OF WATER, POCKET FOR PLANT MATERIAL AND METHOD FOR
STORAGE OF PLANT MATERIAL
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a device, a method for cleaning a course of water or a body of water, a bag for plant material and a method of storage of plant material. It applies, in particular, to course cleaning water and bodies of water.
STATE OF THE ART
Watercourses, natural or artificial, help limit risks flooding of soils by the flow of surplus local rainwater in progressively larger watercourses or bodies of water allowing the storage of these surpluses.
These watercourses transport, in addition to water, sediments causing their progressive siltation. In particular, this natural phenomenon is reinforced in of the geographical areas with flat topography, where the soil is particularly susceptible erosion or in watercourses with low flow. To these sediments natural Industrial and urban discharges may be added.
In addition, invasive plants can develop in waterways, which limits the water flow capacity. These invasive plants can also be a threat to the biodiversity of the watercourse. These plants are by example Jussies (Ludwigia sp.), Dense Egeria (Egeria densa), Elodea (Elodea sp.), Lagarosiphon (Lagarosiphon major) and Brazilian Watermilfoil (Myriophyllum aquaticum). The uprooting, as practiced in current systems, of these plants is not enough to limit their expansion.
In order to restore and maintain the flow capacity of watercourses and to limit the impact on the biodiversity of invasive plants, it is necessary to achieve WO 2016/012529

2 PCT/EP2015/066834 a cleaning action which consists of removing sediments and plants from these course of water.
In current systems, a backhoe loader extracts sediments and plants from the watercourse and feeds a pocket made of woven synthetic material, this pocket being usually abandoned on a bank once the cleaning action has been carried out.
These systems do not make it possible to sustainably reduce the quantity of invasive plants present in the watercourse. On the other hand, these systems they have a poor ecological footprint due to the abandonment of synthetic materials, And especially in plastic, in nature.
OBJECT OF THE INVENTION
The present invention aims to remedy all or part of these drawbacks.
To this end, according to a first aspect, the present invention aims at a pocket For plant material, which includes:
- a geotextile mesh to retain the plant material, this mesh being configured to be wound so as to form a tube comprising, at one end, an entrance for the plant material, - a means of maintaining the mesh in the wound position and - a means of closing the other end of the tube.
Thanks to these arrangements, the pocket, rollable and unrollable, allows collection of plant material when the bag is rolled up.
One of the additional problems of the systems of the prior art is that synthetic material pockets are left in place once filled, this Who degrades the environment.
In embodiments, the pocket object of the present invention comprises a means for unwinding the filled pocket, at least partially, of plant material to extract plant material.
These embodiments make it possible to release plant material contained in the pocket when the pocket is unrolled. In this way, the poached can be reused and the ecological footprint of the use of the bag is diminished.
In embodiments, the unwinding means comprises at least a thermoplastic polymer strip.

WO 2016/012529

3 PCT/EP2015/066834 The advantage of these embodiments is that the polymer strips thermoplastic have great strength, which makes it possible to exert strength of significant traction on these strips so as to unroll the bag when this pocket is filled with plant matter.
In embodiments, the mesh comprises at least one part in non-woven plant fiber.
These embodiments reduce the ecological footprint linked to the manufacturing and the exploitation of the pocket.
In embodiments, the mesh comprises at least one part in non-woven hemp fiber.
These embodiments reduce the ecological footprint linked to the manufacturing and the exploitation of the ladle in addition to reducing the manufacturing cost of the pocket.
In embodiments, the mesh is configured to withstand a plant material inlet pressure greater than eight bars.
The advantage of these embodiments is that they allow projection powerful plant material in the pocket so as to facilitate the filling a long-shaped pocket for example.
In embodiments, the pocket object of the present invention comprises a means of flotation on a water surface.
These embodiments make it possible to move the bag on a watercourse when cleaning the watercourse, for example.
In embodiments, the pocket object of the present invention comprises a means of attachment to a means of moving the filled pocket, At less partially, of plant matter.
The advantage of these embodiments is that they make it possible to move the bag filled with plant matter from, for example, a watercourse to a hard surface near the watercourse.
According to a second aspect, the present invention aims at a storage method of plant material, which includes:
- a step of winding a bag which is the subject of the present invention, - a step of positioning the pocket in a watercourse or a plane water,

4 - a stage of cleaning the watercourse or body of water, - a step of extracting the pocket from the watercourse or body of water, - a step of depositing the bag on a hard surface and - a step of unrolling the bag so as to release the material vegetable, retained in the pocket, on the hard surface.
The aims, advantages and characteristics of the process which is the subject of this present invention being similar to those of the device which is the subject of the present invention they are not recalled here.
According to a third aspect, the present invention aims at a cleaning device of a course of water or a body of water, which includes:
- a boat supporting a crusher, - the grinder for grinding plants present in the watercourse or in the plan of water comprising an inlet for plants and an outlet for crushed plants and - a floating pocket object of the present invention connected to the outlet of the crusher to collect crushed plant shavings.
Thanks to these provisions, the device can carry out the cleaning of any course water or body of water navigable by the boat. In addition, grinding plants allows a storage of denser plant material, which makes it possible to reduce the dimensions of the pocket, or container.
In embodiments, the device which is the subject of the present invention includes a plant suction means configured to feed the inlet of the crusher with the vacuumed plants.
These embodiments facilitate the feeding of plants to the crusher by sucking them plants near the device.
In embodiments, the device which is the subject of the present invention includes a means of sectioning, plant stems to be crushed, immersed in the watercourse or in the body of water.
The advantage of these embodiments is to facilitate the feeding of plants in grinder while preventing underwater plants from remaining out of reach of the crusher.
Date Received/Date Received 2022-02-25 WO 2016/012529

5 PCT/EP2015/066834 In embodiments, the device which is the subject of the present invention comprises, a means of sterilizing crushed seeds together with the plants and having passed through the crusher.
These embodiments limit the proliferation capacity of seeds of way to avoid the proliferation of plants once the plant material crushed extracted from the pocket or in the pocket.
In embodiments, the geotextile pocket includes at least one part made from plant fibers.
The advantage of these embodiments is that they make it possible to reduce the ecological footprint of the bag in the case where the bag is placed on a bank once filled with plant matter.
In embodiments, the pocket comprises at least one part in non-woven hemp.
These embodiments allow low-cost production, in addition to improve the ecological footprint, of the pocket.
In embodiments, the device which is the subject of the present invention comprises a means for releasing sediments attached to a wall of the body of water Or of the watercourse.
The advantage of these embodiments is that they make it possible to grind the plant roots fixed in sediments.
According to a fourth aspect, the present invention aims at a cleaning process of a watercourse or body of water, which includes:
- a step of grinding plants present in the watercourse or the body of water by a crusher supported by a boat and - a step of collecting crushed plant shavings in a pocket floating associated with the crusher.
The aims, advantages and characteristics of the process which is the subject of this present invention being similar to those of the device which 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 step, a plant suction step.
These embodiments facilitate the feeding of plants to the crusher by vacuuming plants near the device.

WO 2016/012529

6 PCT/EP2015/066834 In embodiments, the method which is the subject of the present invention includes a step of sectioning plant stems to be crushed.
The advantage of these embodiments is to facilitate the feeding of plants in the shredder, preventing underwater plants from remaining outside reach of the crusher.
BRIEF DESCRIPTION OF THE FIGURES
Other advantages, aims and particular characteristics of the invention will emerge from the following non-limiting description of at least one mode of realization particular of the device and the method which are the subject of the present invention, in gaze of appended drawings, in which:
- Figure 1 represents, schematically and seen from above, a mode of particular embodiment of the device which is the subject of the present invention, - Figure 2 represents, schematically, a flowchart of steps particular of the process which is the subject of the present invention, - Figure 3 represents, schematically and seen from above, a mode of particular embodiment of the pocket which is the subject of the present invention and - Figure 4 represents, schematically, a flowchart of steps particular of the process which is the subject of the present invention.
DESCRIPTION OF EXAMPLES OF CARRYING OUT THE INVENTION
This description is given on a non-limiting basis.
For the rest of this document, we qualify a fabric as a geotextile.
usually made of synthetic material configured to allow water to pass through.
The embodiments described below can be advantageously combined.
We observe, in Figure 1, which is not to scale, a sectional view of a embodiment of the device 10 which is the subject of the present invention. This device 10 cleaning of a watercourse or a body of water includes:
- a boat 105 supporting a crusher, - the grinder 110 for grinding plants present in the watercourse or In the body of water comprising an inlet 115 for plants and an outlet 120 for crushed plants, WO 2016/012529

7 PCT/EP2015/066834 - a means 135 of section, of plant stems to be crushed, immersed in the course of water or in the body of water, - a means 145 for releasing sediments attached to a wall of the body of water Or of the watercourse, - a plant suction means 130 configured to supply the inlet 115 of grinder 110 with the plants sucked in, - a means 140 for sterilizing crushed seeds together with the plants and having passed through the crusher 110 and - a floating container 125, connected to the outlet of the crusher to collect of the crushed plant shavings.
The boat 105 is, for example, a motor boat comprising a source of electrical power for the rest of the device 10. This power supply electricity can be generated by the operation of the boat's engine or by an autonomous power source mounted on board the boat 105, such as a battery for example.
The crusher 110 comprises, for example, a rotary motorized part coupled by means of suction 130, the rotating motorized part being equipped with blades mounted on a rotating axis set in motion by a hydraulic motor. This crusher 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 of which the rotation takes place in front of a mouth of the suction means 130. In of the variants, the actuation of the suction means 130 causes the actuation of the crusher 110. In other variants, the suction means 130 and the crusher are controlled independently. The blades are rotated, for example, by a hydraulic motor.
The section means 135 is, for example, a blade fixed to a support of blade, this blade support being mobile. The device 10 comprises a means of positioning the blade holder so as to immerse the blade holder In the watercourse or in the body of water to be treated. In variations, the means of section 135 has two blades each supported by a blade support.
These blade supports are positioned so that when the boat advances on a watercourse, the blades cover at least half of the width of watercourses.

WO 2016/012529

8 PCT/EP2015/066834 The unhooking means 145 is, for example, a rubber blade or of metal, oriented obliquely towards the base of the bed of the watercourse or the plan of water. This blade allows sediments attached to the base to be suspended.
of bed and torn off as the blade moved by the boat 105 passes.
THE
unhooking means 145 can be associated with section means 135 in the case a joint support of the unhooking means 145 and the section means 135 by a support arm.
In variants, this unhooking means 145 is a set of nozzles configured to project water, drawn into the watercourse or plan of water, under pressure on the base of the bed upstream of a rigid blade for recovering sediment suspended.
In preferred embodiments, the device 10 comprises a means of recovering cut plants and suspended sediments supplying the suction means 130. This recovery means is, by example, formed by two arms oriented towards the front of the boat 105 so as to direct cut plants and sediments towards the suction means 130, one of which entrance is positioned between the two arms.
The suction means 130 is, for example, a hydraulic pump configured to suck up water, plants and sediment near an opening At less partially submerged in the watercourse or body of water. THE
materials vacuumed entered the crusher 110. The crushed materials are evacuated by a outlet 120 of the crusher 110. In variants, this suction means 130 present a suction flow of 430m3 per hour.
The materials leaving the crusher 110 pass through the sterilization means 140.
This sterilization means 140 is, for example, a microwave oven configured to irradiate the seeds coming out of the crusher 110.
The suction means 130 also acts as a means of ejecting the crushed materials in container 125.
The container 125 is, for example, a geotextile pocket comprising at minus one part in plant fibers. An embodiment of such a pocket East particularly described with reference to Figure 3. These plant fibers being, by example, non-woven hemp.
This plant fiber geotextile includes, for example:

WO 2016/012529

9 PCT/EP2015/066834 - crushed plant stems with a diameter greater than five millimeters, - fragments of plant stems and - plant fibers partially attached to said crushed stems, the stems and fragments of stems being intertwined by mechanical connections produced by water projection.
This geotextile 115 is produced, for example, by implementing a process comprising:
- a step of arranging plants into a layer of plant stems crushed with a diameter greater than five millimeters, fragments of stems plants and raw plant fibers partially attached to said stems crushed and - a step of projecting water onto said sheet to form connections mechanical damage between crushed plant stems, stem fragments plants and the plant fibers of said web.
This process includes, for example:
- a step of introducing plants, in the form of large plants dimension, such as rods measuring up to 2.5 meters for example, - a step of partial reduction of the plants into stems to form rod elements with a length preferably greater than twenty centimeters, and preferably greater than fifty centimeters, - a step of crushing the plants to form a sheet of stems of crushed plants with a diameter greater than five millimeters, fragments of plant stems and raw plant fibers partially attached to the called crushed stems, - a step of orienting the rods and/or fibers in directions different, - a step of harmonization of the thickness of the layer of fibers, - a step of incorporation into the rope or cable fibers parallel to the length of the fiber web, - a step of creating mechanical connections between the fibers of the web, in the thickness of the tablecloth, by spraying water under pressure onto the fibers plants or, alternatively, with a multi-needle stitching machine.

WO 2016/012529

10 PCT/EP2015/066834 The plant material used for the implementation of this process is, for example example, a set of hemp fibers.
This container 125 is configured to float, even full, on the watercourse or the body of water due to the composition of this container 125. In variants, this .. container 125 includes floats.
We observe, in Figure 2, a particular flowchart of steps of the process 20 object of the present invention. This process 20 of cleaning a watercourse or of a body of water includes:
- a step 220 of sectioning plant stems to be crushed, - a step 215 of suction of the plants, - a step 205 of grinding plants present in the watercourse or the plan of water by a crusher supported by a boat and - a step 210 of collecting crushed plant shavings in a container floating associated with the crusher.
The step 220 of sectioning the stems of the plants to be crushed is carried out, by example, by a section means 135 as described with reference to Figure 1.
The suction step 215 is carried out, for example, by a suction means 130 as described with reference to Figure 1.
The grinding step 205 is carried out, for example, by a grinder 110 such as described in Figure 1.
The collection step 210 is carried out, for example, by a container 125 such that described in Figure 1.
We observe, in Figure 3, a particular embodiment of the pocket 30 object of the present invention. This bag 30 for plant material includes :
- a 305 mesh in geotextile to retain the plant material, this mesh being configured to be wound so as to form a tube comprising, at one end, an entrance for the plant matter, - a means 310 for maintaining the mesh in the wound position, - a means 315 for closing the other end of the tube, - a means 320 for unwinding the filled pocket, at least partially, of plant material to extract the plant material which comprises at least a strip 325 of thermoplastic polymer, - a means 330 of flotation on a water surface and WO 2016/012529

11 PCT/EP2015/066834 - a means 335 for fixing to a means for moving the filled pocket, at less partially, of plant matter.
The 305 mesh in geotextile is, for example, a tarpaulin made of synthetic material comprising at least one part made of non-woven plant fiber. This fiber plant is, for example, non-woven hemp fiber. This tarpaulin flexible is rectangular in shape so that, once this rectangle is rolled up, the tarpaulin adopts a tubular shape initially open at both ends after winding. One of the ends is folded and closed by means of closing 315 so as to form a pocket with the tube. This means of closure 315 is, for example, a hook-and-loop fabric strap positioned by a user of so as to be wrapped around the tube and tighten the end to be closed. In of the variants, this closing means 315 is a set of hooks associated with of the elastics wrapped around the tube and attached to eyelets present on the mesh 305.
The 305 mesh is configured to resist material inlet pressure plant greater than eight bars. Preferably, the inlet pressure is of ten bars.
In preferential variants, a secondary geotextile mesh biodegradable is wound inside the mesh 305 once this mesh wound so that the secondary mesh conforms to the tubular shape of mesh 305.
The purpose of this mesh 305 is to retain the entered plants by allowing them to a liquid phase, comprising mainly water, to leave the mesh 305. The purpose of the secondary mesh is to keep the dried plants in shape a times the unrolled 305 mesh. This secondary mesh, biodegradable in the same way that the material contained, makes it possible to limit the ecological footprint of the device 30.
The tube formed by the rolled mesh 305 is held in this position by the holding means 310. This holding means 310 is, for example, a means of fixing a part of the mesh 305 to another part of the mesh 305, such a set of hooks on one hand and eyelets on the other 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, associates WO 2016/012529

12 PCT/EP2015/066834 to one side of the mesh 305. When traction is carried out on this means of unwinding 320, the tube formed by the mesh 305 is unrolled mechanically.
The flotation means 330 is, for example, a set of floats positioned along mesh 305.
The fixing means 335 is, for example, a set of eyelets allowing the attachment of hooks, for example, these hooks being associated with a machine carrying out the movement of the pocket from a watercourse towards a surface hard to proximity to the watercourse.
We observe, in Figure 4, a particular flowchart of steps of the process 40 object of the present invention. This method 40 of storing plant material includes:
- a step 405 of winding a pocket as described with regard to the figure 3, - a step 410 of positioning the bag in a watercourse or a plan 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 input from the pocket with this plant material, - a step 420 of extracting the pocket from the watercourse or the body of water, - a step 425 of depositing the pocket on a hard surface and - a step 430 of unwinding the bag so as to release the material plant, retained in the pocket, on the hard surface.
The winding step 405 is carried out, for example, by a user folding the mesh of the pocket so as to create a flattened tube shape closed to a end.
The step 410 of positioning the bag in a watercourse is carried out, for example, by association of the pocket with a boat comprising a crusher, so that the inlet of the bag is connected to the outlet of the grinder. When the boat advances in the watercourse, the bag is mechanically driven in the watercourse and floats on the surface of this watercourse.
The cleaning step 415 is carried out, for example, by the device 10 described in look at Figure 1, in which the container described corresponds to the pocket.

WO 2016/012529

13 PCT/EP2015/066834 The extraction step 420 from the pocket is carried out, for example, by fixation to the pocket of hooks allowing the traction, by a machine, of the pocket out of bed of the watercourse or body of water. In variants, the extraction 420 is carried out by pulling the boat out of the water, the boat dragging the bag out of the water.
The deposition step 425 is carried out, for example, by removing the fasteners used to extract the bag out of the watercourse or body of water.
The unfolding step 430 is carried out after a period of drying of the pocket for example. During this unfolding step 430, traction East lo produced on thermoplastic polymer strips so that the pocket is unrolled and the contents of the bag poured onto the hard surface.

Claims (9)

14 1. Pocket for plant material, comprising:
- a geotextile mesh comprising a secondary mesh in biodegradable geotextile made of non-woven plant fiber to retain the plant material, this mesh being configured to be wound with so as to form a tube comprising, at one end, an inlet for plant matter, - a means of maintaining the mesh in the wound position, - a means of closing the other end of the tube and - a means for unwinding the filled pocket, at least partially, 1.0 of plant material to extract the coiled secondary mesh comprising the plant material, the unwinding means comprising at least one thermoplastic polymer strip. 2. Pocket according to claim 1, in which the mesh comprises at least a part in non-woven hemp fiber. 3. Pocket according to claim 1 or 2, in which the mesh is configured to withstand plant material inlet pressure greater than eight bars. 4. Process for storing plant material, which comprises:
- a step of winding a pocket according to any one of the claims 1 to 3, - a step of positioning the bag in a watercourse or a body of water, - a stage of cleaning the watercourse or body of water, - a step of extracting the pocket from the watercourse or body of water, - a step of depositing the bag on a hard surface and Date Received/Date Received 2022-12-09 - a step of unrolling the bag so as to release the material plant, retained in the pocket, on the hard surface. 5. Device for cleaning a watercourse or a body of water, which includes:
- a boat supporting a crusher, - the grinder to grind plants present in the watercourse or in the body of water having an inlet for plants and an outlet for crushed plants and - a floating pocket according to any one of claims 1 to 3, connected to the shredder outlet to collect plant shavings crushed. 6. Device according to claim 5, which comprises a suction means of plants configured to feed the crusher inlet with plants sucked. 7. Device according to claim 5 or 6, which comprises a section means, of plant stems to be crushed, immersed in the watercourse or in the plane of water. 8. Device according to any one of claims 5 to 7, which comprises, A
means of sterilizing seeds crushed together with plants and having passed through the crusher. 9. Device according to any one of claims 5 to 8, which comprises a means of removing sediments attached to a wall of the body of water or the watercourses.
Date Received/Date Received 2022-12-09