FLOATING MODULE FOR THE REDUCTION OF LOSSES BY EVAPORATION IN AQUEOUS-BASED LIQUIDS, AND METHOD FOR ITS MANUFACTURING

Description

Technical field of the invention

[0001] The present invention relates to a device for the maintenance of large bodies of water and, more specifically, to systems for the reduction of water losses due to the evaporation of these.

State of the prior art

[0002] It is known that large masses of water and water-based liquids, such as ponds, artificial lakes or pools, suffer losses due mainly to evaporation caused by the action of sunlight and the action of wind. Therefore, systems are needed that cover the surface of the water body and prevent these actions from sunlight and wind, reducing evaporation losses.

[0003] These systems consist, essentially, of floating modules, floating covers, shading covers and chemical barriers. The floating modules are constituted by pieces of plastic or any other material that float on the surface. Floating covers are plastic sheets that float on the surface and need an anchorage to the perimeter of the body of water. The shade covers consist of structures that cover the body of water providing shade. Finally, chemical barriers are chemical products that create a thin hydrophobic layer on the surface of the body of water.

[0004] Within all the systems, the only one that allows an adaptation to any type of water mass, by surface and geometry, being able to cover 100% of the surface without the need for civil works, with little maintenance and long lifespan, is that of floating modules.

[0005] However, the vast majority of existing floating modules require complex assembly prior to use. In addition, these modules have a very high weight to ensure proper handling, since they need a large amount of material that allows sufficient rigidity to fit the parts that compose them.

[0006] In the state of the art there are floating modules formed by circular base pieces that have the disadvantage of not covering 100% of the surface of the water body. In addition, these modules suppose a weight of between 4-5 Kg to cover 1 m2, which causes handling problems. Another drawback of the current floating modules is that, if they are manufactured lightweight to favour buoyancy, they are easily lifted by the effect of wind suction, not fulfilling the proposed objective of covering the body of water.

[0007] Patent application US2010/028082 A1 discloses a float member designed to cover a fluid surface. The float member includes an elongated polygonal shaped body having a top portion and a bottom portion defining a central longitudinal axis and a periphery portion. The periphery may have a substantially flat surface. The float member may include an inner wall for positioning or controlling movement of a ballast member inside the body.

[0008] The present invention discloses a floating module with a perimeter wing and a conformation that improves its function compared to the float member disclosed in the patent application US2010/028082 A1.

[0009] Patent application WO 2009/095017 A1 discloses a floating member for covering and thereby reduction of evaporation from a surface of a liquid is provided with ribs, which extend from the edge of the floating member and has a height which increases from the edge of the floating member, which is disposed at the surface of the liquid, to the centre of the floating member. Curved faces, which define a cavity inside the floating member, are provided between the ribs. The present invention discloses a floating module with no ribs extending from the edge of the floating member to the centre of each compartment.

[0010] Document ES1162209U describes a floating module for the reduction of losses by evaporation in water-based masses and water-based liquids, characterized in that it comprises a plurality of independent longitudinal cells arranged in parallel and a plurality of orifices arranged in the longitudinal cells for ballasting with liquid. The present invention is to improve the geometry and general operation of the device described in this document.

Explanation of the invention

[0011] It is an object of the present invention to provide a floating module that solves the problems described in the state of the art. Thus, an object of the present invention is a floating module that maintains its buoyancy characteristics, even if they break or deteriorate. Another object of the present invention is to provide a floating module that can be manufactured using different techniques and in different materials, such as plastic polymers, which simplifies and cheapens production.

[0012] Another object of the invention is to provide a floating module that adapts to any type of mass of water and water-based liquids, independently of the surface of the mass, its geometry, the slopes of the reservoirs and other
elements of the mass. In addition, the floating module must adapt to any type of water body and its level ups or downs.

[0013] Another object of the present invention is that the modules resist sunlight and allow navigation in the body of water for maintenance work; be easy to install and maintain; that its recovery is possible for its subsequent recycling; and that they allow a simple transport and installation.

[0014] Another object of the invention is the resistance to wind event in order to avoid dragging it out of the reservoir and its stacking on slopes located to windward thanks toits ballasting, as well as to quickly recover their optimal working position in the event of strong gusts of wind by the self-flip effect for which they are designed.

[0015] All objects of the invention are achieved by the floating module of claim 1. Other particular embodiments of the invention are described in the dependent claims. More specifically, the floating module for the reduction of losses by evaporation of liquids in water bodies and liquids in aqueous base is formed by two sealed cells of polygonal shape, preferably of hexagonal shape, independent of one another but joined together, where each of the cells is configured for the ballasting of said cells by means of a liquid housed therein and which, moreover, has the peculiarity of incorporating a wing distributed around the perimeter.

[0016] The module of the invention, in a particular use thereof, is arranged on the surface of the aqueous mass, taken one by one or in combination with a plurality of modules joined or not together to cover 100% of the surface of the aforementioned mass of water, floating above it and preventing the entry of sunlight and the action of the wind, which are the atmospheric agents responsible for evaporation.

[0017] The internal compartments accommodating the ballast allow, thanks to the self-fliping effect, that the position of the modules is always the designed for optimum performance, and that in the case of high winds the module regains its operating position.

[0018] Throughout the description and the claims, the word "comprises" and its variants are not intended to exclude other technical characteristics, additives, components or steps. For those skilled in the art, other objects, advantages and characteristics of the invention will emerge partly from the invention and partly from the practice of the invention. The following examples and drawings are provided by way of illustration and are not intended to restrict the present invention. In addition, the invention covers all possible combinations of particular and preferred embodiments indicated herein within the scope of the claims.

Brief description of the drawings

[0019] Next, a series of drawings that help to better understand the invention and that are expressly related to an embodiment of said invention, which is illustrated as a non-limiting example thereof.

FIG. 1 shows a perspective view of a particular embodiment of a floating module object of the present invention of rectangular shape and formed by two hexagonal cells.

FIG. 2 shows a partial section in perspective of an alternative embodiment of a floating module object of the present invention in which the two hexagonal cells include an internal compartment configured to accommodate a ballast.

FIG. 3 shows a diagram of the operation of the invention. Where is shown a cell (2) without compartment (figure 3a) and with compartment (figure 3b) according to the invention.

Explanation of a detailed embodiment of the invention and examples

[0020] As can be seen in the attached figures, the floating module (1) configured for the reduction of losses caused by evaporation in water-based liquids and, particularly, in water bodies, such as ponds, artificial lakes, etc. marshes or pools.

[0021] More specifically, each of the floating modules (1) consists of two sealed cells of polygonal plant, preferably hexagonal (2), which are independent of each other and configured as a hollow body and tightly configured to accommodate a ballast, preferably water, since it is the way to ballast the floating module (1).

[0022] Each of the modules (1) incorporates a perimeter wing (4) and allows to cover more or less watery surface depending on the overlap between the wings (4) of the modules (1)

[0023] According to different particular embodiments of the invention, the cells (2) can have different drafts and geometries as long as they maintain their polygonal shape, preferably hexagonal or bi-hexagonal in the plane of their working position. That is, the cells (2) have such a geometry that prevents the permanent stacking of some modules on others due to the wind, precisely due to the joint action of the location and span of the ballast and the rounded surface of the module (1).

[0024] The ballasting of the floating module (1) can be carried out by including in the manufacture a quantity of water in the different compartments of the independent cells (2) that form the module (1). According to an alternative embodiment of the invention, the ballasting of the modules (1) will be done by fixing said amount of water to its working position by adding thereto some kind of innocuous additive that thickens, gels or solidifies the ballast, confining it in the interior compartment of each cell (2).

[0025] The module (1) described allows to achieve a weight reduction in relation to those currently existing and maintains the necessary wind resistance thanks to ballasting. The geometry of the cells(2) makes possible to move the upper surface thereof away from the surface of the body of water so that there is no ponding effect on the cells(2), or heating of the surface of the water body to cover.

[0026] In a particular embodiment of the invention the module (1) is made in a plastic polymer, although they can be made in any material that has equivalent mechanical characteristics. The cells (2) are articulated together by means of a separating element (3) that grants a degree of freedom in the axis orthogonal to the work plane.

[0027] Figure 3 shows a preferred embodiment of the invention in which each hexagonal cell (2) is compartmented by means of a plastic sheet which can be laminar, as can be seen in said figure 3, or have greater or lesser thickness, or present any type of configuration.

[0028] The compartments (5) are separated by a sheet (7) made therein with the same material that the cells (2), as a continuation of these, although they could also be made in any other material that would be considered advantageous in each particular case. The function of the internal compartments (5) is shown in Figure 3. Figure 3a shows, schematically, a cell (2) without compartments and ballasted (6). In case of wind action, the cell (2) will be placed in vertical position and orthogonal with respect to the water surface, the ballast (6) will be placed in its lower area and will have a stable vertical position. Since this verticality implies that the cell (2) is orthogonal to the aqueous surface, the module (1) without compartments could not fulfil its function of returning to the operating position in the presence of strong gusts of air.

[0029] However, when the cells (2) are compartmentalized (5) then the situation is that shown in Figure 3b. The ballast (6) is located in the lower compartment (5) of each cell (2) and, when there is a turn caused by a strong wind, each cell is turned 90° until reaching the orthogonal position mentioned above. However, in this case, the ballast (6) located in one of the compartments (5) of each cell (2) will accumulate on a single side, making the vertical position unstable and tending, therefore, to recover its horizontal position with respect to the aqueous liquid and thus fulfil the function for which it has been designed.

[0030] Finally, it should be noted that the floating module (1) can be made by extrusion, moulding, thermoforming, injection of plastics, or a combination of these techniques. Subsequently, the module (1) will be processed and the necessary machining will be performed, such as the arrangement of the compartments (5) for ballasting, articulation of spacer elements (3) and configuration of perimeter wings (4) for, finally, cut it with the concrete desired shape.

Claims

1. A floating module (1) for the reduction of losses by evaporation in water-based liquids, comprising

at least two polygonal watertight hollow cells (2) each having a polygonal plan view, wherein an interior of each cell (2) is divided into at least two internal compartments (5) by a horizontal intermediate sheet (7), and wherein each cell (2) comprises a liquid ballast (6) inside a lower internal compartment (5) of the abovementioned at least two internal compartments (5), where the two polygonal cells (2) are articulated together by means of a separating element (3); and

a perimeter wing (4) disposed on a horizontal axis of the floating module (1);

in such a way that the module (1) is configured to recover from the action of the wind a horizontal and floating position with respect to the water-based liquid.

2. The floating module (1) of claim 1, wherein the polygonal cells (2) and the intermediate sheet (7) are made by one or more plastic polymers.

3. The floating module (1) of any of claims 1-2 wherein, the polygonal cells (2) are hexagonal.

4. The floating module (1) of any of the preceding claims, wherein the ballast (6) is water comprising a thickening, jellifying or solidifying additive configured for fixing said ballast (6) liquid to a working position.

5. A method for manufacturing the floating module (1) according to any of the previous claims, the method involving extrusion, moulding, thermoforming, injection of plastics, or a combination thereof, and comprising the processing of the arrangement of the compartments and of the articulation with the separating element (3), the configuration of the perimeter wing (4) and a cutting step to a desired shape, whereby it further comprises a step of providing an amount of water (6) in the compartments (5) of the watertight cells (2).

6. A method for manufacturing the floating module (1) according to claim 5, further comprising fixing said amount of water (6) to a working position in the compartment (5) of the watertight cells (2) by adding thereto a thickening, jellifying or solidifying additive.

Ansprüche

1. Ein schwimmendes Modul (1) zur Reduzierung von Verlusten durch Verdunstung in wasserbasierten Flüssigkeiten, bestehend aus:

mindestens zwei polygonalen wasserdichten Hohlzellen (2) mit jeweils polygonalem Grundriss, wobei das Innere jeder Zelle (2) durch eine horizontale Zwischenplatte (7) in mindestens zwei Innenkammern (5) unterteilt ist und jede Zelle (2) einen Flüssigballast (6) in einer unteren Innenkammer (5) der vorgenannten mindestens zwei Innenkammern (5) umfasst, wobei die zwei polygonalen Zellen (2) mittels eines Trennelements (3) miteinander gliedartig verbunden sind; und

einem Umfangsflügel (4), der auf einer horizontalen Achse des schwimmenden Moduls (1) angeordnet ist, sodass das Modul (1) derart gestaltet ist, dass es unter der Einwirkung des Windes eine horizontale und schwimmende Position in Bezug auf die wasserbasierte Flüssigkeit einnimmt.

2. Das schwimmende Modul (1) gemäß Anspruch 1, wobei die polygonalen Zellen (2) und die Zwischenplatte (7) aus einem oder mehreren Kunststoffpolymeren hergestellt sind.

3. Das schwimmende Modul (1) gemäß einem der Ansprüche 1-2, wobei die polygonalen Zellen (2) hexagonal sind.

4. Das schwimmende Modul (1) gemäß einem der vorstehenden Ansprüche, wobei der Ballast (6) Wasser ist, das einen verdickenden, gelierenden oder verfestigenden Zusatzstoff enthält, damit die Ballastflüssigkeit (6) in einer Arbeitsposition fixiert wird.

5. Eine Methode zur Herstellung des schwimmenden Moduls (1) nach einem der vorstehenden Ansprüche, wobei die Methode Extrusion, Gießen, Thermoformen, Spritzen von Kunststoffen oder eine Kombination davon, die Bearbeitung der Anordnung der Kammern und der gliedartigen Verbindung mit dem Trennelement (3), die Gestaltung des Umfangflügels (4) und einen Schnittvorgang in die gewünschte Form sowie einen weiteren Schritt des Befüllens der Kammern (5) der wasserdichten Zellen (2) mit einer Wassermenge (6) umfasst.

6. Eine Methode zur Herstellung des schwimmenden Moduls (1) nach Anspruch 5, die ferner das Fixieren der Wassermenge (6) in einer Arbeitsposition in der Kammer (5) der wasserdichten Zellen (2) durch Zugabe eines verdickenden, gelierenden oder verfestigenden Zusatzstoffes umfasst.

Revendications

1. Module flottant (1) pour la réduction des pertes par évaporation dans des liquides aqueux, comprenant :
au moins deux cellules polygonales creuses étanches (2) ayant chacune une vue en plan polygonale, où l'intérieur de chaque cellule (2) est divisé au moins en deux compartiments internes (5) par une feuille intermédiaire horizontale (7), et où chaque cellule (2) contient un lest liquide (6) à l'intérieur du compartiment interne inférieur (5) au moins des deux compartiments internes précités (5), où les deux cellules polygonales (2) sont articulées l'une avec l'autre au moyen d'un élément de séparation (3), et où un aileron périmétrique (4) est disposé sur un axe horizontal dudit module flottant (1), de telle sorte que le module (1) est en mesure de retrouver sous l'action du vent une position horizontale et flottante par rapport au liquide aqueux.

2. Module flottant (1) décrit dans la revendication 1, caractérisé en ce que les cellules polygonales (2) et la feuille intermédiaire (7) sont constituées d'un ou de plusieurs plastiques polymères.

3. Module flottant (1) décrit dans l'une ou l'autre des revendications 1-2, caractérisé en ce que les cellules polygonales (2) sont hexagonales.

4. Module flottant (1) décrit dans l'une quelconque des revendications précédentes, caractérisé en ce que le lest (6) est de l'eau comprenant un additif épaississant, gélifiant ou solidifiant destiné à stabiliser ledit lest liquide (6) dans une position opérationnelle.

5. Procédé de fabrication du module flottant (1) selon l'une quelconque des revendications précédentes, ledit procédé impliquant l'extrusion, le moulage, le thermoformage, l'injection de matières plastiques, ou une combinaison de ceux-ci, et comprenant la détermination du positionnement des compartiments et de l'articulation avec l'élément de séparation (3), la configuration de l'aileron périmétrique (4) et une étape de découpage à la forme souhaitée, comprenant en outre une étape visant à apporter une quantité d'eau (6) dans les compartiments (5) des cellules étanches (2).

6. Procédé de fabrication du module flottant (1) selon la revendication 5, comprenant également la stabilisation de ladite quantité d'eau (6) dans une position opérationnelle dans le compartiment (5) des cellules étanches (2) par l'ajout d'un additif épaississant, gélifiant ou solidifiant.

Drawing