RO132291B1 - Modular floatable fish well - Google Patents

Description

The invention refers to a module considered the primary element, with the help of which fish farms can be made both in a single floating horizontal alignment and in several alignments positioned both horizontally and vertically at increasingly greater depths for to create underwater terraces, in order to intensively grow fish in simple technology or together with other aquatic species (shells or algae). The invention can be successfully used in still fresh waters, or in coastal maritime areas with a high degree of instability (storm or surface squall), both floating on the surface of the water and in immersion.

The classic technology of making aquaculture farms with steel sheet floats is known, whose duration and safety in exportation is relatively low, and considerable maintenance costs. Classic farms are used to carry out the activity of intensive fish breeding only in still and calm waters (lakes), due to the fact that from a constructive point of view they are rigid and do not have resistance to the stress permanently produced by the destructive forces of the marine environment.

The aquarium is also known for stimulating the rate of directed growth of submerged fish RO 121067, but this has the disadvantage of the rigid positioning by anchors of each individual module, impossible to act (move or retract) quickly, in case of pollution or other sinister incidents. At the same time, it presents the high disadvantage of the impossibility of visual inspection on the surface of the fish in the enclosure. The last disadvantage is that obtaining environmental approval in nature reserves is almost impossible due to the fact that in the case of a plague (mass disease), the fish from the premises cannot be extracted quickly, and the rapid repositioning of the aquarium in a quarantine area is impossible due to the complicated maneuvers required by this system of immersion anchoring of aquaculture farms with a rigid anchoring system. Due to this rigidity in the anchorage, the vivarium for stimulating the rate of directed growth of submerged fish RO 121067 cannot be used in the marine environment (except with very high costs for the frequent inspection of the anchorage system and its change whenever needed) knowing that that the anchors resist for a relatively short time the stress produced by the bottom currents, bottom currents and the surface in the marine environment.

Also known is the submersible aquarium against the gloss of the water RO 86658, but which presents the disadvantage of a complex and expensive construction unusable in the marine environment, having its only destination only in lake areas. This type of nursery can only be equipped with difficult-to-control mooring facilities (refers to the fact that the anchors of floating buoys in practice cannot be tensioned uniformly in the context of violent and uncontrollable movements, waves and currents and is at risk of destruction or even the total loss of the aquaculture system.Another disadvantage is also found in the high risk of destruction, resulting from the effect of the permanent presence of high-amplitude aquatic wave motion in the marine environment (generators of high destructive forces).

Another known technology is that with plastic or composite floats of various shapes and sizes, but these have the disadvantage that they can only be anchored in calm waters and this technology does not solve the problem of operational safety neither in the lake environment nor in the marine environment .

From the RO 129415 A0 document, a floating nursery is known consisting of some technological roads joined at the ends with a mobile coupling system, a connecting platform for the floating elements, a clamping-mounting-alignment system for mounting a profiled metal ruler for positioning the platform that forms the road, a tightening system mounting by joining the two identical ends to stiffen the floats that form a common body with the collar by means of a stiffening element provided with a thread, a spacer system arranged along the floats at a distance calculated to achieve by assembling all the elements a self-contained assembly with buoyant qualities, resistant and stable.

From the RO 129075 A0 document, a hydrographic buoy with storm protection 1 is known, equipped with a sinking-flushing system and having an electrical system powered by photovoltaic panels. 3

The technical problem that the invention solves is to eliminate the risk of destruction or mutilation of the nursery module and aquaculture farms consisting of more than 5 modules, on the surface, in immersion or combined, due to the fact that the floating segments are joined by mobile elements (hinges or spacer hinges) and eliminates the stress produced 7 by bottom hull and surface hull that are frequently present in the marine environment. At the same time, the diving system protects the aquaculture farm from total damage by 9 destroying the anchoring system; this having the role of flooding the floats in a controlled manner to lower the whole set of modules (the farm in its entirety) to a lower level (in depth) 11 where the apparent calm of the marine environment is found and the aquaculture farm is safe. 13

The modular floating aquarium according to the invention, which is made up of robust floating elements, arranged transversely and longitudinally, which form the perimeter of the enclosure of the modular aquarium 15 and which support a net, the floating elements being segmented and joined by some pre-tensioned mobile mechanisms, solves the technical problem and removes the disadvantages 17 mentioned in that the floating elements form a submersion-flushing system for positioning/repositioning the vivarium relative to the surface of the marine environment in which the pre-tensioned mobile mechanisms 19 are of the hinge or hinge-spacer type, depending on the hostile marine environment. 21

The invention is defined as a module considered the primary element (represented in plate no. 1 and plate no. 2), with the help of which fish farms can be made both in a single floating horizontal alignment and in several positioned alignments both horizontally and vertically at ever-increasing depths to create underwater terraces (configuration example: plate no. 3 and plate no. 7 respectively), in order to intensively grow fish in simple technology or together with other aquatic species (shells or 27 algae). The invention can be successfully used in still fresh waters, or in coastal maritime areas, with a high degree of instability (storm or surface squall), both floating on the surface of the water and in immersion.

The module - the modular floating nursery represented in plates 1,2 and 6. This is 31 constituted by a set of elements with increased buoyancy arranged transversely and longitudinally so as to surround the nursery module. The increased buoyancy elements 33 marked with 1 consist of two floats of high-density polyethylene (which is accepted and used in the food system) marked with 5, of sufficient thickness to withstand 35 destructive forces, to which they can also be subjected with a diameter large enough for the assembly to support in safe flotation both the weight of the element with all the related accessories 37, together with the weight of the net that forms the actual enclosure for intensive growth of the fish 8. The perimeter float assembly represented in fig.4 is made by stiffening the 39 two floats at an equal distance from each other with the help of a clamping system 6 found in drawing plate no. 2, in fig. 4 and drawing plate no. 6 in fig. 7 and fig.8, consisting 41 of a clamping collar 6A, with tightening system 6D, mounting 6B, alignment/spacing 6C. The collar allows the attachment of some profiled rulers 11 on the upper part, on which the platform that will configure the road 7 is positioned, which will be used safely for utilitarian purposes. This road is provided with railings 9 on the outside for the safety of the exploitation and on the inside 45 it has a rigid system to which both the netting of the aquarium enclosure and the netting covering the aquarium can be attached in order to protect against birds (if it is on the surface and for closing at the top of the aquarium enclosure to exclude the possibility of losing the fish, when it is immersed).

In the horizontal plane, the Module - modular floating vivarium is also constructively characterized by the fact that the floating assemblies that frame the enclosure of the net vivarium are closed at the corners by means of corner platforms 2. The corner platform 2 is made up of the same component systems as the lateral floating assembly of the aquarium with the difference that it has a square shape and has the necessary dimensions to perfectly close the perimeter of the modular floating aquarium module, forming a continuous road around the enclosure of the aquarium. The coupling between the two floating segments (corner pieces and the lateral floating assembly) is achieved by means of flywheel systems on the vertical axis (hinge type 3, movable at both ends, shown in plate 4 fig. 5). The coupling between two multi-storey terraces is carried out by the same flywheel system on the vertical axis type 3A hinge, with the difference that the spacers have dimensions that ensure the distance necessary to create the multi-storey terraces at different levels and provide safety in operation not only when they are positioned on the surface but also when sinking maneuvers of terraced fish farms are made.

The module - modular floating nursery, respectively the farms created by assembling modules are characterized by the ability to enter immersion, with the help of the immersion-ramping system connected to each float 5 separately. The immersion-ramping system is composed of: two systems, the electro-pneumatic system consisting of; photovoltaic panels 51, (which can be mounted on secondary roads and utility platforms), controller 52, accumulator batteries 53, compressor 56, solenoid valves 14, and the mechanical system consisting of valves for flooding and draining water from floats 13.

The submergence-removal system acts on mechanical command when the anchor chains stretch (in a storm) allowing the floats 5 to be flooded by means of the mechanical valves 13, driving the whole farm assembly into immersion to the depth where the fish system is no longer in danger. Flushing is carried out by remotely operating the electovalve 60 of the air tank by opening the flood, pressing compressed air in the floats 5 to purge the water inside them. By means of the compressed air distributor 16 of the electro-pneumatic system, farms with superimposed underwater terraces can be realized in controlled immersions with protection against storms or other hostile constituents of the marine environment.

The modular floating fish farm offers the possibility of easy and safe execution and operation of fish farms composed of modules that can be used in marine coastal areas both in flotation and in submerged flotation (below sea level at the depth where calm is found during storms), when the sea has a high degree of storm (measured on the Beaufort scale) characterized by high amplitudes and frequencies of storms specific to the coastal area of Romania at the Black Sea. From an economic point of view, the application of this invention can be considered strategic because by using the invention, the marine resource can be fruitful, by creating fish farms in the exclusive economic zone and it would considerably reduce the import of fish which at the moment is more than 70% of the quantity consumed in Romania.

The modular floating nursery module is equipped with an electrical system that uses green energy captured by photovoltaic panels and powers the pumping plant (which restores the entire aquaculture farm to its original floating position) and other consumers (beacon lights, feeders, etc. ).

The module - the modular floating vivarium presents maximum safety in operation on the surface and in immersion, due to the fact that it is built from floating segments joined by movable elements with vertical freedom that allow an undulating movement according to the size of the waves, eliminating the stress produced by the hula bottom and surface hull, which are frequently present in the marine environment and are the main factor in the destruction of anchor systems and floating elements; at the same time, the fish farm is equipped with 3 automatic diving and flushing systems used in order to protect the aquaculture farm from strong storms by diving to a depth where the sea no longer presents a danger. The aquarium is 5 energy independent and can be used in the marine environment away from the shore, thanks to the system powered by green energy captured by photovoltaic panels. 7 The element of technical novelty is that the module - the modular floating fish pond is characterized both by the constructive solution of the floats, which are segmented and joined 9 by mobile mechanisms (hinge - spacer type) which significantly reduces the mechanical stress produced by the surface hula or bottom marine hull, as well as by equipping it in tandem with the 11 submergence - bulging system that provides protection against strong storms, in conjunction with the energy independence thanks to the electrical system powered by 13 photovoltaic panels, it provides safety in operation in the hostile marine environment specific to the coastal area of Romania at the Black Sea. 15

The invention, the modular floating vivarium, completely eliminates the disadvantages of the patent

Aquarium for stimulating the rate of directed growth of submerged fish (RO 121067) and17 the patent Immersible aquarium against water gloss (RO 86658) presenting advantages as follows:19

- the modular floating fish farm works independently in the set of modules that make up the farm, thus allowing its use both in calm lake areas and21 in maritime coastal areas;

- due to the framing with floats over which platforms are mounted and can be used both as utility roads (in order to move easily, safely and quickly inside the premises when needed) and as platforms for panels with photovoltaic cells; 25

- if the weight is transferred from one floating segment used as a road to another, it does not affect the stability of the mode to which it belongs, nor of the other modules in the aquaculture farm assembly;

- the access of utility boats serving the farm can be done easily and safely on any part of the farm;

- the modular floating ponds due to the fact that they use mobile joints between 31 floats, have the advantage that in the case of the development (extension) of the farm, the costs are reduced by % of the value, namely with a floating system (which can be a road) that can be used from the ponds 33 already active, this can be done easily, safely, without mistakes and without using special equipment; 35

- moving the farm to other coordinates can be done easily;

- the farm is energy independent and can be positioned further from the shore and 37 can be supervised from the shore through different video systems;

- farms built modularly with the help of modular floating vivarium can be used 39 thanks to the use of hinge and spacer movable joints, both in a single floating horizontal alignment and in several alignments positioned both horizontally and 41 vertically at depths of increasingly larger to create underwater terraces, in order to intensively grow fish in simple technology or together with other aquatic species (shells 43 or algae);

- this system presents safety in pollution specific to aquaculture farms 45 due to the fact that the technology of intensive fish breeding can be used together with other aquatic species, shells and algae, which also have the role of purifying the biotope. 47

The following is an example of the realization of the invention Modular floating fish tank of the combination of modules (fish tanks), electrical installations and compressed air systems for the creation of farms and fish arrangements in accordance with the attached drawings which represent:

- fig. 1, plan view of a nursery module, according to the invention,

- fig. 2, view A-A, of a nursery module, according to the invention;

- fig. 3, view C-C, of a nursery module, according to the invention;

- fig. 4, cross-sectional view B-B, float stiffening and spacing system, according to the invention,

- fig. 5, example of a horizontal configuration of a floating aquaculture farm on the surface, according to the invention,

- fig. 6, coupling system with spacer hinges, according to the invention;

- fig. 6.1, hinged coupling system (eg corner platform), according to the invention;

- fig. 7, cross-sectional view B-B, stiffening system and platform mounting, compressed air system according to the invention;

- fig. 8, cross-sectional view C-C, compressed air system according to the invention;

- fig. 9, isometric diagram of the compressed air installation, according to the invention;

- fig. 10, isometric diagram of the electrical installation powered by photovoltaic panels, according to the invention;

- fig. 11, example of a vertical plan configuration of the aquaculture farm floating on the surface and in immersion with multi-storey terraces, according to the invention.

Claims (1)

Claim 1 Modular floating aquarium composed of some floating elements (1), (2), robust, 3 arranged transversely and longitudinally, which form the perimeter of the enclosure of the modular aquarium and which, support a net (8), the floating elements (1, 2) being segmented and joined by some 5 mobile mechanisms (3) pre-tensioned, characterized by the fact that the floating elements (1, 2) form a submersion-floating system for positioning/repositioning the aquarium in front of 7 the surface of the marine environment in which the mobile mechanisms (3) pre-tensioned are of the type hinge or hinge-spacer (3A), depending on the hostile marine environment.9