ES1162209U - Floating module to reduce losses from evaporation in water masses and aqueous based liquids (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Floating module for reducing losses due to evaporation in water-based liquids and water-based liquids, characterized in that it comprises - a plurality of independent longitudinal cells (2) arranged in parallel, - and a plurality of holes (3) arranged in the longitudinal cells (2) for liquid ballasting. (Machine-translation by Google Translate, not legally binding)

Description

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FLOATING MODULE FOR REDUCING LOSSES BY EVAPORATION IN MASSES OF WATER AND WATER-BASED LIQUIDS

DESCRIPTION

5 Field of the invention

The present invention belongs to the technical field of maintaining large bodies of water and water-based liquids, and more specifically to systems for reducing water losses due to evaporation in said

10 large bodies of water. The invention relates in particular to a floating module that is located on the surface of a large body of water, made up of several independent longitudinal cells arranged in parallel, and a plurality of holes in the longitudinal cells for ballasting the module by liquid.

Background of the Invention It is known that large bodies of water and aqueous-based liquids suffer losses mainly due to evaporation caused by the action of sunlight and the action of the wind. Therefore, systems that cover the

20 surface of the water body and prevent said actions of sunlight and wind, thus reducing losses due to evaporation. At present, numerous systems are known for the reduction of losses by evaporation in large bodies of water and aqueous-based liquids such as ponds, artificial lakes, swimming pools, etc.

25 These systems mainly consist of floating modules, floating covers, shade covers and chemical barriers. Floating modules are essentially 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 anchor to the perimeter of the body of water. Shading covers

30 consist of structures that cover the body of water with a covering that shades this body of water. Finally, chemical barriers are chemicals that create a thin hydrophobic layer on the surface of the body of water.

Of all the systems, the only one that can be adapted to any type of body of water and water-based liquids, by surface area and geometry, being able to cover 100% of the surface without the need for civil works, with little maintenance and

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long service life, is that of floating modules.

However, the vast majority of these currently existing floating modules are made up of parts that require complex assembly prior to use. In addition, these modules have a very high weight to guarantee their

5 correct handling, since they need a large amount of material that allows enough rigidity to fit the parts that compose them.

There are additionally other floating modules formed by pieces with a circular base that have the disadvantage of not being able to cover 100% of the surface of the body of water. In addition, these modules suppose a weight of between 4-5 kg to cover

10 1 m2, which causes handling problems. Another drawback of the current floating modules is that if they are made light to promote buoyancy, they are easily lifted by the suction effect of the wind, not meeting the proposed objective of covering the body of water. It was therefore desirable to have a floating module that efficiently covered the

15 surface of large bodies of water and aqueous-based liquids to avoid losses due to evaporation, avoiding the inconveniences existing in the previous systems of the state of the art.

Description of the invention

The present invention solves the problems existing in the state of the art by means of a floating module for reducing losses due to evaporation in bodies of water and aqueous-based liquids, which is formed by independent longitudinal cells arranged in parallel. Furthermore, the module has a plurality of holes arranged in the longitudinal cells for ballasting said cells.

25 longitudinal by liquid. In this way, the floating modules will float on the surface of the water body, preventing the entry of sunlight and the action of the wind, which are the agents that produce evaporation and with it the losses in the water body.

In order to cover the maximum surface of the body of water, up to 100% of it, several modules, different or equal to each other, can be joined and joined along the entire surface.

Thus, by means of these floating modules it will be possible to cover up to 100% of the surface of the water body, with a lower weight than currently existing solutions, and completing the necessary weight to avoid the suction of the wind and

35 lifting of the modules by means of this simple and efficient ballasting system.

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Preferably, the longitudinal cells are made of any plastic polymer, although they can be made of any material with similar characteristics.

According to a particular embodiment of the invention, the longitudinal cells are connected to each other, and according to an alternative embodiment the cells are isolated from each other.

Furthermore, the module can be made in such a way that the adjacent longitudinal cells are in contact with each other, or they can be separated by separating elements.

According to a preferred embodiment of the invention, the longitudinal cell of at least one of the ends of the module has a perimeter wing, which prevents the suction of the module by the effect of the wind and its lifting from the body of water. Likewise, this perimeter wing serves as a support between different adjacent modules necessary to fully cover the surface of a large body of water.

15 and water-based liquids.

Through the above characteristics, floating modules meet several requirements: -Float at all times, and even continue to float, even if they break or deteriorate. -Be able to be manufactured with different materials, such as plastic polymers, and

20 using various techniques, which simplifies and lowers its production. -Adapting to any type of mass of water and water-based liquids, regardless of its surface, its geometry, the slopes of the reservoirs and the elements that may be on the surface. -Adjust to the rise and fall of the water level and therefore to the differences in the

25 surface (solid or liquid) that supports them. -Avoid the suction of the modules due to the effect of the wind, mainly due to the ballasting and their design and configuration. -Support the action of sunlight. -Allow navigation in the body of water for maintenance work.

30 -Easy installation and maintenance. -Recovery of the modules at the end of their useful life for their subsequent recycling. -Maintain the ballast, even when they are on a solid surface. -Be stackable and palletizable.

Thanks to these characteristics and requirements of the floating modules, these 35 provide the following advantages with respect to the previous systems of the state

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of the technique: -Reduce losses by evaporation of large masses of water and aqueous-based liquids, which is the main object of the present invention. -Reduce the proliferation of algae by limiting solar radiation in the water.

5 -Reduce the concentration of salts in the water. -Increase the durability of the elements that, for the confinement of the water body, have a useful life related to the incidence of sunlight, such as waterproofing sheets.

Brief description of the drawings In the following, to facilitate understanding of the invention, by way of illustration but not limiting, an embodiment of the invention will be described with reference to a series of figures.

Figure 1 is a perspective view of an embodiment of a floating module 15 object of the present invention of rectangular shape formed by longitudinal cells of hexagonal section.

Figure 2 is a perspective view of an alternative embodiment of a rectangular shaped floating module also formed by longitudinal cells of hexagonal section.

Figure 3 is a partial section of a particular embodiment of a floating module formed by cells of circular section, showing a perimeter wing in the longitudinal cell at the end of the module.

Figure 4 is a perspective view of an alternative embodiment of a floating module in this case hexagonal in shape. 25 These figures refer to a set of elements that are:

1.

floating module

2.

longitudinal cells

3.

holes for ballasting longitudinal cells

Four.

longitudinal cell separating elements

30 5. perimeter wing of the longitudinal cell at the end of the module

Detailed Description of the Invention The object of the present invention is a floating module 1 for reducing evaporation losses in bodies of water and aqueous-based liquids. 35 As can be seen in the figures, the module object of the invention

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it is formed by a plurality of independent longitudinal cells 2, which are arranged in parallel, and by a plurality of holes 3 arranged in the longitudinal cells 2 for ballasting by liquid. The liquid will preferably be water, since it will be the simplest and cheapest way to ballast module 1 in

5 the body of water.

According to different particular embodiments of the invention, the longitudinal cells 2 can have various sections such as circular, oval, square, rectangular, hexagonal, etc.

As for the holes 3 for ballasting, they will preferably be in the

10 upper surface of the longitudinal cells 2 to facilitate their machining and the ballasting of the module 1, although they can be arranged anywhere, and can be of any size.

Thus, the ballasting of the floating module 1 can be carried out by means of different techniques, such as submerging the modules 1 in the body of water during their installation, by watering said modules, or alternatively by installing water to

through the holes 3 prior to their installation.

This floating module 1 object of the present invention allows a reduction in weight in relation to those existing at present, but maintains the necessary resistance thanks to the ballasting. This configuration of modules 1 allows moving the

20 upper face of these of the surface of the water body so that there are no ponding effects on the module 1, nor heating of the surface of the water body to be covered.

Preferably, the longitudinal cells 2 are made of plastic polymer, although they can be made of any material that has similar characteristics.

According to a particular embodiment of the invention, the longitudinal cells 2 are connected to each other. In this way, to achieve adequate ballasting of all cells 2, it would not be necessary for all of them to have holes 3 for filling with water, but rather, since they are in communication with each other, part of the

30 water that functions as ballast would be distributed between the cells 2 communicated. According to an alternative embodiment, the longitudinal cells 2 can be isolated from each other. In this case, if we want to ensure correct ballasting by water of all cells 2, it would be necessary for all of them to have holes 3 for filling, since, since they are not in communication with each other, the water would not be distributed

35 among them.

Figures 1, 3 and 4 show a particular embodiment of the invention in which the adjacent longitudinal cells 2 are in contact with each other. Instead, figure 2 shows an alternative embodiment of the invention in which the longitudinal cells 2 are separated from each other by means of elements

5 spacers 5, which can be laminar, as can be seen in said figure 2, or have more thickness, or any type of configuration. These separating elements 5 will preferably be made of the same material as the longitudinal cells 2, as a continuation of these, although they could also be made of any other material that is considered advantageous in each particular case.

10 Preferably, the floating module 1 object of the present invention can be made by extrusion, molding, thermoforming, injection of plastics,

or various combinations of these techniques. Subsequently, module 1 will be processed, cutting it with the specific shape that you want to give it (square, rectangular, hexagonal, etc ...), and the necessary machining will be carried out, such as holes 3 for ballasting, separating elements 4, wings perimeter, etc.

Figure 3 shows a preferred embodiment of the floating module 1 object of the invention, in which the longitudinal cell 2 of at least one of the ends of the module 1 has a perimeter wing 5. This perimeter wing 5 prevents the suction of the module 1

20 due to the effect of the wind and its lifting from the body of water. Likewise, this perimeter wing serves as support between different adjacent modules 1 necessary to completely cover the surface of a large body of water, facilitating and improving the fitting and fixing between said adjacent modules 1.

Once the invention has been clearly described, it is stated that the 25 particular embodiments described above are susceptible to detailed modifications provided they do not alter the fundamental principle and the essence of the invention.

Claims (8)

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1.

Floating module for reducing evaporation losses in bodies of water and aqueous-based liquids, characterized in that it comprises -a plurality of independent longitudinal cells (2) arranged in parallel, -and a plurality of holes (3) arranged in the longitudinal cells (2) for liquid ballasting.

2.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to claim 1, characterized in that the longitudinal cells (2) are made of plastic polymer.

3.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to any of the preceding claims, characterized in that the longitudinal cells (2) are connected to each other.

Four.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to any of claims 1-3, characterized in that the longitudinal cells (2) are isolated from each other.

5.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to any of the preceding claims, characterized in that the adjacent longitudinal cells (2) are in contact with each other.

6.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to any of claims 1-4, characterized in that the longitudinal cells (2) are separated from each other by means of separating elements (5).

7.

Floating module for reducing evaporation losses in bodies of water and water-based liquids, according to any of the preceding claims, characterized in that it is made by means of a technique selected from extrusion, molding, thermoforming, plastic injection, and a combination of them.

8.

Floating module for reducing evaporation losses in bodies of water and aqueous-based liquids, according to any of the preceding claims, characterized in that the longitudinal cell (2) of at least one of the ends of the module (1) comprises a perimeter wing (5).

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