• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Fattening system for molluscs. It includes supporting structures (1) with first coupling members (10) for the uprights (7) that integrate the components (4) and (5) carriers of the breeding compartments (6) and second coupling members (14) on the flotation tubes (2) of a displaceable platform. The members (10) and the uprights (7) are provided with corresponding openings (11) and (13) to be actuated by removable coupling devices (12) to allow the retention or release of the uprights (7). A crossbar (16), provided with a hooking arrangement (17), holds the components (4) and (5) together providing an easily manipulated module (18) that can be separated from the support structure (1) with the compartments (6) breeding. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2717712A1
    申请号:ES201731454
    申请日:2017-12-22
    公开日:2019-06-24
    发明作者:Cortinas Andrés Quinta
    申请人:Quinta Cortinas Andres;
    IPC主号:
    专利说明:

    [0001]
    [0002] GRINDING SYSTEM FOR MOLLUSCS
    [0003]
    [0004] TECHNICAL FIELD
    [0005]
    [0006] The invention provides a system particularly, although not exclusively, designed for the fattening of mollusks. The system is based on the displacement of mollusks in development, previously introduced into fattening rooms carried by support structures. The support structures are arranged on movable platforms, well connected to navigable platforms that can be submerged and hoisted to the surface, well connected to vertically sliding platforms on fixed piles and near the coast, so that the whole can move, be displaced, or stay submerged in the desired position and depth in the best utilization of food resources for the growing species. The system could be used to recover damaged species by introducing them into clean marine habitats and in appropriate salinity conditions.
    [0007]
    [0008] BACKGROUND OF THE INVENTION
    [0009]
    [0010] It is known that the transformation of a wild roe to an edible oyster takes three to five years. When this natural process is induced, the time of growth and maturation of the oyster until reaching market size can be shortened by half or shorter, although this requires an arduous work of selection, cleaning and handling, almost always handmade.
    [0011]
    [0012] The use of anchored structures that carry habitats for raising the species to be cultivated is common in mariculture, so that the offspring can take advantage of the marine environment in which they live, especially the nutrients and salinity of the waters. In general and as can be used as an example of document US2989945, such structures are perched on the seabed chosen, anchored by dead to it, marked by buoys and when it is considered to have elapsed the breeding time of the species, extracted from the bottom with cranes, winches or other or other lifting means and brought to the surface to collect the crop. More recently, documents FR 2649293 and US 5628280 show concrete bottoms that support columns formed to support a plurality of carrier structures of aligned, horizontal and superimposed breeding habitats at various vertical levels.
    [0013]
    [0014] These conventional_installations require prior analytical studies that must be carefully considered and weighted to define the marine environment of installation, since it must be maintained for a period of time to avoid the proposal being burdensome for the maricultor. In addition, transport, towing, ballasting, signaling and resituation are required, where appropriate, sometimes making the application of the system prohibitive. Additionally, access to crop collection and handling of the habitats and structures that carry them is complicated and laborious.
    [0015]
    [0016] OBJECT OF THE INVENTION
    [0017]
    [0018] The invention aims at a system to accelerate the growth of mollusks in open waters. The purpose of the system is the optimal use of successive habitats that may occupy in their displacements the container habitats of growing mollusks when they are arranged on movable platforms, either when they are loaded on sliding platforms and vertically guided in their ascents and descents by piles or vertical guides fixed on the bottoms near the coast, or when loaded on navigable platforms that can be submerged and hoisted to the surface by pneumatic means or as long as they reach commercial size, ensuring their nutrition and improving the saline taste of the species growing. The system could also be used in the recovery of damaged species by introducing them into clean marine habitats and in appropriate salinity conditions. Other purposes and advantages of the invention will become apparent as the description progresses.
    [0019]
    [0020] DESCRIPTION OF THE INVENTION
    [0021]
    [0022] The fattening system for molluscs in open water includes a plurality of carrier components of mollusc container enclosures, which are removably connected on a support structure to be incorporated into a movable platform, for example, a vertically guided platform between piles fixed to the coastal bottom or, a navigable platform provided with flotation means that enable immersion or emersion and, upon request, equipped with propulsion means. In all their movements, the rooms accompany the movable platforms that support them, so they can be taken to different levels of depth and raised to the surface for collection or maintenance work. The system ensures the continuous renewal of the local volume of water, improves local oxygenation and facilitates the presence of nutrients, contributing to accelerate the growth of mollusks without damaging the habitat. The system allows you to position the number of components and appropriate rooms on the supporting structure depending on the environmental conditions.
    [0023]
    [0024] The carrier components of shellfish container enclosures include uprights, generally metal extrusions, or formed with polymers or other thermoplastic materials. Each carrier component is composed of a pair of uprights and the uprights in each pair are longitudinally separated by a distance generally less than the length of the cabin to be held. The carrier components and, therefore, the uprights are longitudinally aligned, spaced apart from each other and superiorly connected by a crossbar, generally a tubular extrusion, defining a module that can be independently manipulated and separated from the support structure that keeps them on the platform. scrollable For better handling, several modules can be superiorly connected by stringers with hooks to form a modular assembly and the assembly reinforced by braces.
    [0025]
    [0026] A plurality of brackets is arranged between each pair of uprights, vertically separated and aligned. The brackets are preferred poised on either side of the pair of uprights and in an angular arrangement preferably between 30 and 45 degrees to facilitate the flow of water through it and ensure nutrition. Water-permeable broodstocks, preferably trays with cover and bottom, preferably of metal grid to protect specimens from predators and conveniently reinforced by metal plates, are removably arranged on the brackets. Support posters help to support the support of the brackets. To favor oxygenation, nutrition and growth, mollusks are introduced into the cabins into a flexible mesh container with an easy closing system. The meshes of Different sieves according to the size of the specimens. The cabin is preferred with outgoing arrangements in order to prevent the movement of specimens.
    [0027]
    [0028] The support structure of the shell carrier components for mollusks is integrated, in its simplest preferred conception, by a tubular extrusion of quadrangular sectional aluminum that generally runs horizontally between two floating tubes provided parallel to the movable platform. The structure has an upper face to which are connected, preferably by welding, first coupling members consisting of short tubes conveniently spaced from each other and including coupling openings configured to be traversed by removable coupling devices that also pass through respective coupling openings in the lower portions of the uprights, to ensure the retention of the components to the structure. In its lower and opposite face, the structure has second coupling members, formed by broken-molding and with an open face to be adapted on the periphery of a float tube of the movable platform. In its simplest conception, two are the coupling members, which are arranged spaced apart and towards each end of the structure, to adapt to the peripheries of two parallel and proximal float tubes in the movable platform.
    [0029]
    [0030] The movable platform, for example, is preferred constructed with a framework of tubes formed with weather-stable materials, such as high density polyethylene, although the use of other plastic polymers or the use of metals or metal alloys is not ruled out. , such as stainless steel. All or a part of the platform tubes compartmentalized with partitions and equipped with a valve system that allows the bilge and selective flooding of the compartments, for their ascent or descent. The incorporation of means to control the system remotely is evident. When navigable is preferred, the platform is completed with governance means, directional means, stabilizers, levelers, signaling devices, lateral mooring reinforcements or other characteristic elements in this type of platform. It is also evident the incorporation of means to control the structure remotely.
    [0031]
    [0032] Since, to a large extent, the system is intended to be used in the vicinity of the coast and sometimes must be protected from storms, a protective barrier is incorporated therein which is anchored in front of the support platform and convenient distance from it in order to distance or avoid the presence of species harmful to mollusks. Although the protective barrier can be chosen from among the conventional barriers, for example including tires, it is preferred formed with tubes, generally made of polyethylene and weighted.
    [0033]
    [0034] BRIEF DESCRIPTION OF THE DRAWINGS
    [0035]
    [0036] An exemplary, non-limiting, embodiment of a shellfish fattening system is shown in the accompanying drawings, in which:
    [0037]
    [0038] Figure 1 is a schematic elevational view illustrating the detail of a module in the system, with its components separated prior to being coupled to the support structure.
    [0039]
    [0040] Figure 2 is an elevational view in correspondence with Figure 1 illustrating the module with its components mounted and with a conventional coupling arrangement added to the upper cross member and the module incorporated between two floating tubes of a platform;
    [0041]
    [0042] Figure 3 is a profile view, in correspondence with Figure 1, showing several modules connected superiorly by stringers provided with hooks and the modular assembly incorporated on flotation tubes in the platform;
    [0043]
    [0044] Figure 4 is a plan view, in correspondence with Figure 3;
    [0045]
    [0046] Figure 5 is a profile view, on a smaller scale than the previous ones, showing a schematic embodiment of the proposed fattening system and illustrating an operational position in which a unit formed with several modules, or modular assembly, is being removed from the platform movable, intended as a navigable installation in this preferred embodiment.
    [0047]
    [0048] Figure 6 is a schematic elevation view to a smaller scale of a system protection barrier in a position of use.
    [0049]
    [0050] Figure 7 is a schematic view illustrating in plan and to said smaller scale a protective barrier of the system distanced from a support platform.
    [0051] PREFERRED EMBODIMENT OF THE INVENTION
    [0052]
    [0053] With respect to the figures, the fattening system comprises support structures (1) designed to engage between two flotation tubes (2) of a platform (3) and to support, each, first (4) and second (5) carrier components (6) for breeding.
    [0054]
    [0055] The support structure (1) is manufactured with an aluminum tubular extrusion of quadrangular section, which is generally laid horizontally between two parallel flotation tubes (2) on the platform (3) and provides an upper side (8) in addition to a lower side (9) and opposite. The upper side face (8) provides, vertical and spaced apart, first (10) tubular coupling members, having coupling openings (11) diametrically facing on their periphery suitable for receiving removable coupling devices (12), such as conventional pins, which also pass through respective coupling openings (13) provided in the lower portions of the uprights (7), in order to ensure the retention of the components (4) and (5) to the structure (1). The support structure (1) incorporates in the lower face (9) and in the vicinity of its ends, second coupling members (14) preferably obtained by roto-molding, two as illustrated by the figures, each provided with a lower face (15) open to meet the upper periphery of the flotation tubes (2) of the platform (3).
    [0056]
    [0057] Each component (4) and (5), interior carrier (6), is formed with a pair of uprights (7), generally vertically arranged and longitudinally separated aluminum extrusions at a distance preferably less than the length of the cabin (6) to hold The components (4) and (5) and, with them, the uprights (7) are longitudinally aligned, spaced apart and connected superiorly by a crossbar (16), generally a tubular aluminum extrusion, usually provided with a coupling arrangement (17 ) defining a module (18) that can be independently manipulated and separated from the support structure (1) that keeps them on the flotation tubes (2) of the platform (3). A plurality of brackets (20) are arranged connected between each pair of uprights (7), vertically separated and aligned.
    [0058]
    [0059] As best illustrated in Figures 3 and 4, the brackets (20) are offset against both sides of the pair of uprights (7) and in an angular arrangement between 30 and 45 degrees, facilitating with this arrangement the flow of water and nutrients through it. The breeding grounds (6), generally made of metal grid, are observed on the brackets (20). Support tables (21) are arranged in the uprights (7) and located below the brackets (20) contributing to support the weight of the shellfish growth.
    [0060]
    [0061] A plurality of modules (18) with breeding grounds (6) according to Figures 1 to 4, are observed, incorporated in corresponding support structures (1), connected to flotation tubes (2) in the platform (3), forming a modular assembly (19) that includes stringers (22) with hooks (17), as best illustrated in Figures 3 and 4, for operation as schematically shown in Figure 5, in which the separation of one of the modules (18) with the help of a crane (23) arranged in the auxiliary vessel (24), once the devices (12) have been removed from the coupling openings (11) in the first (10) members of coupling and coupling openings (13) in the uprights (7).
    [0062]
    [0063] In the proposed embodiment, the platform (3) in addition to the flotation tubes (2) is structured with float tubes (25) of greater diameter and incorporates vertical floats (26) in its corners as well as mooring sides and walkways ( not represented).
    [0064]
    [0065] The protective barrier is structured by a flotation unit that includes two tubes (27) in horizontal arrangement which, in their testa connection to the periphery of a vertical tube (28) of greater diameter, form an angle of 140 degrees whose amplitude can vary and that can be maintained with the help of a crossbar (29). From each of the tubes (27) hangs a row of tubes (30) of small diameter, inferiorly joined to each other by a sheathed chain (31). The tubes (27), (28), (29) and (30) preferably obtained as high density polyethylene extrusions. In its use and with the help of the dead (32) the barrier is anchored by the dead at 15 or 20 meters from the support platform.
    [0066]
    [0067] The invention has been described according to the illustrated embodiment. The possibility of providing modifying details and / or replacing certain elements or arrangements with other equivalents or adding complementary devices of known type is evident, without thereby departing from the scope of the invention.
    权利要求:
    Claims (4)
    [1]
    1. Fattening system for mollusks, for application in marine waters, which includes a first (4) and a second (5) carrier components (6) and a support structure (1) for said first (4) and second (5) components, characterized in that each of said components (4) and (5) comprises a pair of longitudinally spaced uprights (7) between which a plurality of carrier brackets (20) are arranged for the interiors (6) breeding and said first (4) and second (5) components aligned longitudinally and connected superiorly by a single crossbar (16) providing a module (18); the support structure (1) generally arranged horizontally between two flotation tubes (2) of a platform (3), which has an upper side (8) with first (10) coupling members longitudinally spaced on its surface to receive so removable said uprights (7) and a lower side (9) with second (14) structured coupling members with a face (15) adapted to the upper peripheral region of the flotation tubes (2) of said platform (3); said first (10) coupling members and said respective uprights (6) and corresponding coupling openings (11) and (13) configured to receive a coupling device (12) to be applied horizontally and removably by connecting said first (10 ) coupling members and said uprights (7) and so that said module (18) can be maintained or separated from the support structure (1) and therefore from the platform (3).
    [2]
    2. Fattening system for mollusks, according to claim 1, characterized in that said module (18) comprises hooks (17) to facilitate its separation from the support structure (1).
    [3]
    3. Fattening system for mollusks, according to claim 1, characterized in that two or more modules (18) are superiorly connected by at least one crossbar (22) with hooks (17) providing a modular assembly (19) to be handled by a crane , winch or similar.
    [4]
    4. Fattening system for mollusks, according to claim 1, characterized in that said brackets (20) are weighted on each side of the pair of uprights (7), vertically aligned and oriented in angular positions between 30 and 45 degrees from the horizontal.
    类似技术:
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    ES2374413T3|2012-02-16|SUBMERSIBLE VIVERO.
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    EP0393276B1|1995-11-22|Spar buoy pen system
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    同族专利:
    公开号 | 公开日
    ES2717712B2|2020-07-09|
    EP3729961A4|2021-10-13|
    EP3729961A1|2020-10-28|
    CL2020001666A1|2020-12-18|
    BR112020012563A2|2020-11-24|
    US20200359607A1|2020-11-19|
    AR113704A1|2020-06-03|
    AU2018389379A1|2020-07-30|
    WO2019122483A1|2019-06-27|
    CA3086469A1|2019-06-27|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    WO2011141608A1|2010-05-14|2011-11-17|Sanchez Lugilde, Maria Ruth|Unit for the culture and growth of goose barnacles|
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    法律状态:
    2019-06-24| BA2A| Patent application published|Ref document number: 2717712 Country of ref document: ES Kind code of ref document: A1 Effective date: 20190624 |
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    优先权:
    申请号 | 申请日 | 专利标题
    ES201731454A|ES2717712B2|2017-12-22|2017-12-22|FATTENING SYSTEM FOR MOLLUSCS|ES201731454A| ES2717712B2|2017-12-22|2017-12-22|FATTENING SYSTEM FOR MOLLUSCS|
    EP18892041.7A| EP3729961A4|2017-12-22|2018-12-19|System for fattening molluscs|
    AU2018389379A| AU2018389379A1|2017-12-22|2018-12-19|System for fattening molluscs|
    PCT/ES2018/070816| WO2019122483A1|2017-12-22|2018-12-19|System for fattening molluscs|
    CA3086469A| CA3086469A1|2017-12-22|2018-12-19|System for fattening molluscs|
    BR112020012563-6A| BR112020012563A2|2017-12-22|2018-12-19|mollusc fattening system|
    US16/956,399| US20200359607A1|2017-12-22|2018-12-19|System for fattening molluscs|
    ARP180103799A| AR113704A1|2017-12-22|2018-12-21|GROWING SYSTEM FOR MOLLUSCS|
    CL2020001666A| CL2020001666A1|2017-12-22|2020-06-18|Fattening system for mollusks.|
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