• 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:
    The sealing device of the present invention is a device composed of several rigid plates or reinforcements articulated to each other, which are held in position by the perimetric magnets from which it is provided, adapts to the shape and cuts the flow of the liquid. It consists of several solid plates or reinforcements (6), all of which are connected and articulated to each other by the synthetic rubber foam (3) from which it is disposed, from a dense rubber base (1), to the that permanent magnets (2), a frisa (4) and a perimetric skirt (5) are bolted. It serves to block wide waterways in vessels, vessels or pipes, among others. It solves the difficulty of adapting rigid covers to poly curved surfaces, and that of closing large openings in addition to being able to be positioned in any of the two media. (Machine-translation by Google Translate, not legally binding)
    公开号:ES2643218A1
    申请号:ES201630659
    申请日:2016-05-20
    公开日:2017-11-21
    发明作者:Andres Guillermo CORREA MOREU
    申请人:Klassmar Ships And Services Sl;
    IPC主号:
    专利说明:

    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    DESCRIPTION
    Sealing device magnetic, semi-rigid, magnetic, and articulated.
    Technology Sector
    The invention falls within the industrial and naval sector, related to damage, in barriers designed to preserve the tightness, in order to retain, store, channel or control any fluid.
    State of the art
    Currently, and as far as it is known, the way to plug water or leakage caused by damage or corrosion in ship hulls, floating platforms, tubular structures, storage tanks or pipes, has been mostly through devices or very rudimentary traditional procedures.
    As traditional devices or methods, panels, cradles and wooden cones, collision pallets, mortar boxes, putties, coferdams, etc. have been known for centuries, all with low reliability and difficult application.
    Traditional methods, although still being used, present even more difficulties in applying to new ships with welded and bent metal hulls, with curvatures in some very pronounced areas.
    In the last 20 years, systems or devices have emerged that, although they have the same purpose, also represent great difficulties in practical application in addition to a very limited utility. The existing ones will be electromagnetic devices, rubber seals, flexible tarpaulins combined with embedded magnetic particles, rigid caps with friezes bolted to the hull, laminated with resins reinforced with some type of fiber, technical putties that do not conjugate the factors as the present invention does , which is understood to introduce a very considerable technological innovation with respect to what already exists.
    Nothing was found that uses permanent magnets for use in plastic or non-ferromagnetic metal liners.
    The report on the state of the art, requested from that office will ratify the aforementioned.
    Explanation of the invention
    The present invention is born as a solution to the problems that traditional devices or new inventions do not solve. These problems, among others, are: The need for prolonged immersions, the use of complementary tools, the difficulty to adhere and adapt to different forms, the possible failure of the device and recurrence of the problem, the use of its application, the tempering of the metal when using welding, incompatibility of components with water, the difficulty of plugging large openings ... etc.
    The device described in this document is composed of two distinct parts from a functional point of view.
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    One, which is the one that supports the hydrostatic pressure exerted on the device, that blocks the entry or leakage of water or liquid and that is provided with magnets to give adhesion to the surface.
    And the other that gives magnetic support, on the other side of the damaged barrier, to the first when it is used on non-ferro-magnetic materials.
    The first part consists of one or several plates (6) of composite material (Composite) or metal, being able to be configured as a unitary plate, for flat surfaces, or as articulated plates by means of synthetic rubber foam rubber (3) arranged between them. It is also provided with a dense rubber base (1), magnets (2), a seal or seal (4), and a perimeter skirt (5).
    The device allows, depending on the thickness of the dense rubber that is mounted (1), to have a closed and sealed space (7) to work dry from within the space to be stagnant (Coferdam).
    Depending on the curvature of the surface to be sealed, the plate or plates of this device are mounted in a rectangular or circular unit, rectangular multi-plate (similar to a blind), or hexagonal, as they will be used on flat surfaces , with single curvature or triple curvature respectively.
    The second part is a plastic mesh sheet (9) with magnets attached to it (10) with magnetization opposite to its corresponding magnet in the sealing and support mechanism.
    This invention brings the following innovations:
    - The device is manufactured to facilitate its manipulation within the medium in which it is used. For use in the sea or inland waters in order to significantly reduce the stay of divers in the middle.
    - By having distributed and permanent magnets (No particles) of high magnetic power (Example. Neodymium) bolted (not embedded) to dense rubber, it makes it adhere strongly to the damaged surface and articulate to adapt to the shape of the surface to stagnate, even to those surfaces that are very deformed.
    - By providing a central empty space allows dry work from the other side.
    - One of the three differentiating characteristics of the present invention is to have plates inside. While other existing flexible devices collapse inwards with wide openings, the device described in these lines is held in place by supporting the pressure because the plate (s) being larger in size than the hole physically prevent it from entering it, being supported / as at the edges and sealing the passage of the fluid.
    - The second of the characteristics is that unlike other sealing devices that take advantage of the pressure that pushes them to create tightness, this can also be placed in the medium of lower pressure since the attraction capacity of the new generation magnets of what is provided allows to counter the pressure exerted by the liquid in its attempt to occupy the space of least pressure. The number of magnets is calculated based on their magnetic power, the area occupied by the device and the pressure of the liquid (Depth in boats and floating devices).
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    - The flexibility of the frisa (4) and the peripheral skirt (5) make it possible to adapt and obtain any possible remaining flow of the fluid when it is in the middle of greater pressure.
    - The third of its own characteristics is that by including a plastic laminar mesh with magnets with magnetization opposite to the base, it can be used in barriers (Lining) of non-ferro-magnetic materials (reinforced resins, plastics, wood, etc. ...), placing it on the other side to which the cover and sealing mechanism are located.
    - The tight seal is suitable for use in tanks or spaces with flammable products since it is intrinsically safe and does not use electricity to achieve the magnetism of its magnets.
    - By having magnets arranged in a distributed manner (2), the sealing is instantaneous, reducing the size of the divers in the water, contributing to their safety.
    - The excess thickness of the gasket or seal located at the base of the closure (4), allows it to adapt to surface imperfections, thus creating greater versatility when sealing.
    - The skirt (5) arranged around the closure causes small losses to be obtained that cannot be blocked by the aforementioned seal or seal (4).
    Description of the drawings
    In order to get a better understanding of the present invention, a series of descriptive plans of the same is attached.
    Figure 1 represents an isometric perspective view with a cross section and a longitudinal section to visualize the internal parts.
    In the figure indicated in the previous paragraph, the plates (6) of which it is provided, in this case double plates and among them the synthetic rubber foam rubber (3) that allows the sealing and articulation between they. This foam rubber between plates and lacquers is the first barrier that the fluid finds on its way to the opening that is intended to be sealed.
    Figure 1 also shows the plastic laminar mesh (9) that is used to support the sealing and sealing parts in non-ferro-magnetic barriers together with the magnetization magnets (10) opposite to those corresponding to the other. part.
    It can also be seen in Figure 1 the high density rubber (1) that allows the plates to rest on the resistant edge of the opening that is intended to be sealed. Under this high-density rubber, the so-called seal or gasket (4) that houses the magnets (2) is attached. The seal or seal is also made of synthetic rubber foam rubber (EPDM, Neoprene, rubber ...) and due to the pressure exerted by the magnets it adapts to the surface imperfections and is the one that seals and prevents the access of the liquid remaining in the medium of lower pressure.
    Figure 2 shows a bottom view showing the magnets (2), the high density rubber (1), the frying (4), the foam between plates (3) and the plates (6).
    Figure 3 represents the sealing device adhered to a damaged surface (8) showing the space that is created when the high density rubber (1) is arranged
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    fifty
    with enough height stop this end. It is this space (7) that allows dry work on the inside of the helmet. For example, sheet renewal, welding filler or welding a fracture among many other utilities.
    Detailed exposure of a preferred embodiment
    As indicated in the preceding lines and as can be seen in Figure 3, the magnetic, portable and articulated sealing device object of the present invention, in its preferred embodiment it can be carried out in the desired size, sufficient to cover the damage, and It comprises of two independent parts. One the cover and another, the magnetic laminar mesh.
    The cover is provided with one or several rigid plates (6) of metal or composite material (composite), designed based on the hydrostatic pressure differential to be supported, a perimeter support or dense rubber (1) in a way that allows the plates support, and these in turn in the hull or barrier to stall a foam rubber synthetic rubber foam (EPDM, Neoprene ...) also perimetric that adapts to the possible irregularities of the surface on which it sits by the hydrostatic pressure and / or the force exerted by the magnets (2), and a perimeter skirt that blocks the small flows that may finally exist.
    The magnets of which it is composed are arranged in size, number and sufficient magnetic power to, one keep it in position and two to compensate for the pressure exerted by the medium of greater pressure (When it is located inside the boat).
    In the case of being configured as a multi-plate device, the plates, in turn, are articulated and sealed with one another by a synthetic rubber foam rubber that is placed between them.
    In addition to the cover that creates the seal along with the synthetic rubber foam rubber base, the device is provided with a flexible laminar mesh of plastic material that also has bolted magnetized magnets with an attraction field opposite to that of the cover for use in linings of non-ferromagnetic materials. This last part is not used when used in ferromagnetic materials.
    All the layers that form the cover are vulcanized to form a single piece, with the exception of the mesh and its magnets that go separately. The magnets are bolted to the high density rubber and the flexible laminar network facilitating its renewal when deterioration occurs.
    This description is not intended to limit the design flexibility provided by the device described here.
    Industrial application
    The industrial applications of the present invention are multiple, among all those that can be given, are listed below, without this serving to exclude any other that the user could give.
    Utilization for water boats on ships that may endanger the flotation or stability of these, as well as any damage that may cause subsequent contamination.
    Unlike other inventions, this can be used by either means, the one with more pressure (Outside of the boat) or the one with the lowest pressure (Inside the boat) in the case of waterways. For its application on the inside it only depends on the number of magnets arranged and the depth at which the waterway is located.
    5
    The main characteristic that makes it different from existing devices is its ability to adhere to all types of materials, be these ferromagnetic materials, plastics, aluminum, etc ... by the magnetic laminar mesh of which it is accompanied.
    10
    These characteristics make it ideal for use on ships with damaged lining, with water ingress and accompanied by deformation. Once located you can work inside in the same conditions as those that occur in dry dock but afloat, allowing the renewal or repair of the damaged part.
    fifteen
    In addition, the use of this invention minimizes the working time of divers under water and rapid sealing allows entry to the flooded space quickly once it has shrunk in order to make the necessary repairs.
    20 Another example of use would be the plugging of losses in tanks of any kind. The device would be located on the damaged area to achieve the necessary tightness, allowing work without having to empty the tank.
    These are just two examples of the industrial use that can be given, although as stated in the first lines of this section, the use and versatility of the invention is very wide and the imagination of the user depends.
    权利要求:
    Claims (6)
    [1]
    5
    10
    fifteen
    twenty
    25
    30
    35
    40
    Four. Five
    1. Sealing device, magnetic, semi-rigid and articulated characterized in that it is composed of two parts:
    • One, which includes:
    • Rigid plates (6) or reinforcements larger than the opening to be covered.
    • Flexible material (3) that articulates the mentioned plates or reinforcements.
    • High density rubber (1) that supports the plates or reinforcements and supports the perimeter magnets (2).
    • Sealing tightness (4) which, pressed by the magnets, creates tightness throughout the perimeter of the device.
    • Magnets (2) to hold the device in place and press the brake (4).
    • Peripheral skirt (5) that prevents the entrance of liquid through the small openings not closed by the cold, contributing to the tightness provided by the device.
    Another, which includes:
    • A laminar maya (9) that supports magnets (10) and in turn, those of the other part of the device, for use in non-ferro magnetic materials.
    [2]
    2. Sealing device according to claim 1 characterized in that the perimetral magnets of which it is composed are bolted, not embedded, to the device.
    [3]
    3. Sealing device according to claim 1 and 2 characterized in that its perimeter magnets are arranged with inverse polarity to the nearest.
    [4]
    4. Sealing device according to claim 1 characterized in that it is made of synthetic rubber foam rubber (4) capable of absorbing the irregularities of the surface to be sealed and articulating its internal plates (3).
    [5]
    5. Sealing device according to claim 1 characterized by being provided with a laminar mesh (9) with magnets of reverse polarity (10) to those of the other part to support non-ferro magnetic materials.
    [6]
    6. Sealing device according to claim 1, 2, 3 and 5 characterized in that the magnets (2) in their disposition and number exert a force greater than that in the opposite direction exerts the liquid on the retention surface, allowing its use by the interior of the damaged barrier.
    类似技术:
    公开号 | 公开日 | 专利标题
    ES2330907B1|2010-09-15|"SYSTEMS AND PROCESSES FOR THE CLOSURE OF OPENING OF MARINE BOATS."
    BR112014020343A2|2020-10-27|apparatus to contain leaks in the longitudinal portion of the pipeline pipeline
    KR102015595B1|2019-08-28|Buoyancy of floating apparatus for solar generation of electric power on water
    ES2643218B1|2018-08-29|Semi-rigid and articulated magnetic sealing device
    KR100540079B1|2006-01-11|Sea water seal apparatus for a vessel discharge pipe or vent hole
    CA2091247A1|1992-03-12|Apparatus and method of sealing ruptured tanks
    PL215842B1|2014-02-28|Modular floating passage systems
    ES2348451T3|2010-12-07|FLOAT MODULE.
    ES2268916B1|2007-11-01|SELF-SUSTAINABLE AND SELF-ADAPTABLE SEALING CLOSURE.
    WO2020191855A1|2020-10-01|Covering device and construction method therefor
    ES2383468T3|2012-06-21|Mechanical member to favor the movement of means of transport
    ES2660841B1|2019-01-17|Multi-purpose modular floating flexible polymer system
    ES2371850B2|2012-06-04|PORT WATER REGENERATION SYSTEM.
    KR100606142B1|2006-08-01|Cover for Hole in Sea Chest of Ship
    BR112012026949B1|2019-09-03|oil containment barrier
    KR20120011127A|2012-02-07|Vertical water turbine of the water pockets of multiple layers like trough and a structure of waterpower generation plant
    ES2329927T3|2009-12-02|SEALING PLUG TO OBTAIN FLOATING HOLLOW ELEMENTS FOR USE IN A POOL COVER.
    CN211039719U|2020-07-17|Prevent leaking valve tap
    KR20150094340A|2015-08-19|Variable ballast tank and vessel and ocean construction including variable ballast tank
    AU2016429336B2|2019-09-19|Assembly and system for pumping a volume of fluid through a body of water
    ES2797783T3|2020-12-03|Flap gate
    CN210235253U|2020-04-03|Covering module and covering device formed by same
    ES2665306B1|2019-02-07|FLOATING STRUCTURE OF MOORING
    KR101852081B1|2018-04-25|3way Rotary Valve for Temperature Control in Shipping Engine
    JP2005324672A|2005-11-24|Water cut-off device for maintaining underwater working space
    同族专利:
    公开号 | 公开日
    ES2643218B1|2018-08-29|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    ES2268916A1|2003-07-22|2007-03-16|Fernando Correa Moreu|Auto-sustainable and auto-adaptable leak-proof seal for tanks or pipes used in ships, has cells with metallic pieces and magnetic pieces provided on base, and arranged between elastic materials filled with fiber layers and impregnated resin|
    GB2405617A|2003-09-05|2005-03-09|James Reid|Vessel hull emergency patching apparatus|
    WO2009088122A1|2008-01-04|2009-07-16|Hyuk Soo Kwon|Device for preventing cargo from leaking from tanker|
    KR20100098586A|2010-08-12|2010-09-08|이영섭|A device for preventing liquid leakage of ship or liquid storage vessel|
    WO2016006888A1|2014-07-05|2016-01-14|이용구|Emergency restoration equipment for steel structure|
    法律状态:
    2018-08-29| FG2A| Definitive protection|Ref document number: 2643218 Country of ref document: ES Kind code of ref document: B1 Effective date: 20180829 |
    2021-09-28| FD2A| Announcement of lapse in spain|Effective date: 20210928 |
    优先权:
    申请号 | 申请日 | 专利标题
    ES201630659A|ES2643218B1|2016-05-20|2016-05-20|Semi-rigid and articulated magnetic sealing device|ES201630659A| ES2643218B1|2016-05-20|2016-05-20|Semi-rigid and articulated magnetic sealing device|
    [返回顶部]