GR20200100101A - Grid with interposed rods for the creation of fish cages - Google Patents

Abstract

The invention relates to a mesh meant for the creation of fish cages, which mesh is made of metal or other suitable material and has, at desired intervals, parallel interposed cylindrical rods (2) running through its entire surface. Said rods are inserted between the structural elements (3) and the grid 1 so that a contact surface (4) between the structural elements (3) of the grid (1) and the cylindrical shafts (2) is created, the force of friction between them being greatly reduced, due to the different contact angle created between the structural elements (3) and the rods (2) what leads to the enhanced durability and service life of the grid (1).

Description

MESH WITH CROSS AXES FOR CREATING CAGES

FISH CULTURE

DESCRIPTION

Technological field

The present invention relates to a grid for creating cages in order to be used in fish farms or other similar uses, characterized by the fact that it has parallel transverse axes, to reduce the friction between the individual structural elements of the grid, a construction structure that achieves the increasing their durability and lifespan.

Technological background

To date, no similar object combining the above technical characteristics has been known worldwide. In particular, plastic or metal cages are known for use in fish farms, in which the fish that are the subject of said farms are placed and live.

As for plastic cages, they have the disadvantage that over time, various microorganisms and other elements accumulate and grow on the mesh, which gradually close the gaps in the mesh and prevent the constant renewal of water in them. To deal with this problem, a thorough cleaning - scraping of the surface of the plastic mesh is carried out at regular intervals, a process which, on the one hand, has an increased cost, and on the other hand, due to the friction carried out during cleaning, it gradually weakens the mesh, which does not it has a long life.

As far as metal cages are concerned, on the one hand the phenomenon of the growth of microorganisms on the surface of the mesh is anyway much smaller compared to plastic ones, on the other hand, with the use of an appropriate alloy for the construction of the structural element or with an appropriate treatment of the surface of the grid, (e.g. copper plating), the growth of microorganisms on it is prevented.

Nevertheless, due to the structure of the mesh and the size of the cages, combined with the fact that they are placed in seawater where, due to the pressure created in the specific environment and the water currents, forces are developed which constantly act on the mesh resulting in to increase the friction at the points of contact of its structural elements, and in a relatively short period of time to cut the mesh at these points, thus reducing its lifespan and sharply increasing the cost of using said cages.

All the above problems prompted me to search for a solution, the result of which is the subject of the present invention.

With my invention, the problem of reliability and the short life of metal cages is solved, because due to the use of parallel transverse axes that run across the entire surface of the grid, the contact surface between its individual structural elements increases and at the same time it is drastically reduced the force of friction between them, as a result of which their life span is greatly increased.

At the same time, the parallel placement of the transverse axes on the grid reduces the gaps created between its individual structural elements. This results in a much smaller number of structural elements being used for the production of the invented grid, compared to a grid of the prior art. In this way, the production cost of the cage is significantly reduced, compared to the metal cages known to date.

Finally, the positioning of the parallel axes is carried out during the production process of the grid, which has the effect of not burdening the production costs of the final product.

Disclosure of Invention

In order to make my invention understandable to those skilled in the art, I refer to the attached drawings in which some industrial applications of the invention are illustratively depicted in various aspects. Particularly:

In drawing 1, the invented grid is illustrated in perspective with the interpolated axes.

Drawing 2 shows a detail of the mesh at the point of contact of the shaft with the rest of the mesh.

Figure 3 shows an alternative implementation of the invention where, instead of a single shaft, corresponding cylindrical gaskets are used at the friction points of the grid.

Referring then to an indicative example of application of the invention, I proceed to a numbering of its main parts, with reference to a corresponding numbering in the attached drawings, where they are shown in an indicative descriptive illustration, without scale but simply in proportion to the sizes of the parts.

According to the selected indicative application of the invention, the invented grid (1) is made of metal or other suitable material, and has at desired intervals parallel interpolated axes (2) which run across the entire surface of the grid and are inserted between the structural elements (3 ) of grid (1) which are no longer touching each other. The shafts (2) are cylindrical in shape, made of metal, plastic or other suitable material and have a suitable treatment on their surface, in order to prevent micro-organisms from adhering (e.g. copper plating).

Due to the aforementioned structure of the grid (1), an increased contact surface (4) is created between the structural elements (3) of the grid (1) and the cylindrical axes (2) and at the same time the force of friction between them is greatly reduced, also due to the different contact angle, which is created between the structural elements (3) and the axes (2). In this way, the damage to the structural elements (3) of the grid (1) is drastically reduced and the lifespan of the cage is multiplied,

Alternatively, instead of using axes (2) which run through the grid (1) over its entire surface, several smaller axes (4) are used that are placed at each point of contact of the structural elements (3) of the grid (1) in the form of gaskets which work in exactly the same way as cylindrical shafts (2).

It should be appreciated that the above is an indicative application of the invention, the object of which is not limited to the above example, but its achievement is also possible with other manufacturing methods and components which remain within the scope of the present description.

Claims (3)

1. Mesh with transverse axes for the creation of fish culture cages made of metal or other suitable material, characterized by the fact that it has, at desired intervals, parallel transverse axes (2) of a cylindrical shape that run across its entire surface and are inserted between the structural elements ( 3) of the grid (1) as a result of which an increased contact surface (4) is created between the structural elements (3) of the grid (1) and the cylindrical axes (2) and at the same time the force of friction between them is greatly reduced, due to the different angle of contact, which is created between the structural elements (3) and the cylindrical axes (2) resulting in an increase in the durability and life of the mesh (1). 2. Grid with interlaced axes for the creation of fish farming cages according to claim 1, which is characterized in that the cylindrical axes (2) are made of metal, plastic or other suitable material and have a suitable treatment on their surface, in order not to microorganisms adhere to it. 3. Grid with interlaced axes for the creation of fish farming cages according to claim 1, which is characterized in that, alternatively, the cylindrical axes (2) do not run through the entire surface of the grid (1) but are placed at each point of contact of the structural elements (3) of the mesh (1) in the form of cylindrical gaskets (4) that work in exactly the same way as the cylindrical shafts (2)