FR3066752A1 - FLOATING MOORING DEVICE - Google Patents

Abstract

The object of the invention is a mooring buoy comprising a body, a housing (12) through and an outer layer (18), characterized in that the outer layer (18) consists of a layer of structure and flexible protection.

Description

FLOATING MOORING DEVICE

The present invention relates to a floating mooring device. In the maritime and nautical fields, it is common to use mooring buoys. Indeed, the locations in the ports are expensive and not very available. When it is necessary to attach a floating boat to the water outside a port location, a floating buoy is put in place and acts as the intermediary between the boat and the element of anchorage which can be a weight, an anchor, or any other means of attachment to the seabed, constituting a dead body.

The buoy then makes it possible to resume and absorb part of the traction forces in the anchor line, in addition to the visual markup that it induces to find the dead body and connect the boat to it. These buoys are mainly retained in two different ways.

The buoy can be fitted with an upper attachment and a lower attachment allowing respectively stowage to the boat and anchorage.

The buoy can, in the second way, be provided with a central bore which can let the mooring rope pass. Said mooring rope then includes blocking knots to prevent slipping and positioning of the buoy on the rope according to the water heights varying over the tides.

In addition to the mechanical traction forces undergone by the buoys, these buoys are very stressed elements and subjected to high stresses, in particular mechanical. In addition, the buoys are subjected to shocks due to the proximity and movements of the moored boats, to boat shocks during approach maneuvers but also during maneuver errors. Exposure to UV rays and the salinity of the water are also factors that shorten the life of its buoys.

Current buoys are buoys made of plastic material which has a relatively short lifespan, of the order of a few years, and which are then discarded. This results in a known environmental problem of coastal pollution and the treatment of waste when it can be recovered. It would be advisable to have a light buoy, resistant to the mechanical and physical constraints mentioned and particularly shocks, UV and seawater, composed for all or part of renewable materials and whose post-use treatment is facilitated by the environmental quality of the materials used.

The present invention provides a buoy capable of damping the mechanical forces mentioned and the construction of which largely uses renewable materials, while having significant capacities of resistance to aging therefore of durability.

The present invention is now described according to a preferred nonlimiting embodiment, with reference to the appended drawings in which the different figures represent:

Figure 1: a perspective view of the mooring buoy,

FIG. 2: a view in median section of the buoy in FIG. 1,

Figure 3: a sectional view of the buoy in the figure receiving shackles Figure 4: a sectional view of the circular recesses

The mooring buoy according to the invention consists of a body 10, of generally sphero-conical shape in the embodiment adopted.

The mooring buoy, visible in perspective in Figure 1 and in section in Figure 2, is a hollow buoy and therefore has a housing 12 passing vertically and centered. The housing 12 receives a reinforcing element 14, in this case a reinforcing tube 16 fixedly placed in the housing passing through 12 of the body 10 of the buoy. This reinforcement is attached and fixed by gluing or by force fitting for example.

The body 10 of the buoy consists of an outer skin 18 and of a core material 20. The two ends 22-1 and 22-2 of the body 10 of the buoy are also provided with two circular recesses 24. The diameter of the circular recesses 24-1 and 24-2 is approximately twice greater than the diameter of the through housing 12 according to the embodiment adopted.

These circular recesses 24-1 and 24-2 have a relatively small height, compared to the height of the body of the buoy 10, over a few centimeters in height for a buoy with a radius of 40 centimeters and a height of 80 centimeters. .

The circular recesses 24 preferably receive two flanges 26-1 and 26-2, of geometry combined with that of the circular recesses 24. Said flanges 26-1 and 26-2 are nested in each of said recesses 24-1 and 24-2 of body 10 of hnnpp I ρς r.nllprpttps? fi-1 Pt rpalispps nar un rvlindrp rrpnx? R-1 Pt Pt nar ledges 30-1 and 30-2, cylinders 28-1 and 28-2 and ledges 30-1 and 30-2 forming the monolithic assembly forming the flanges 26-1 and 26-2, visible in Figures 2 and detailed in Figure 4.

The flanges 26-1 and 26-2 additionally comprise two internal 32 and external 34 holes of different diameters. It is designated by internal drilling and external drilling, the two holes of the flanges 26-1 and 26-2 being respectively positioned on the internal side and on the external side of the mooring buoy and this at each of the two ends 22-1 and 22 -2 of the body 10.

The collar 26-1 thus comprises an internal bore 32-1 and an external bore 34-1 and the collar 26-2 thus comprises an internal bore 32-2 and an external bore 34-2. The hole diameters are such that 32-1 = 32-2> 34-1 = 34-2.

In addition, the diameter of the inner holes 32-1 and 32-2 is equal to the outside diameter of the reinforcing tube 16 and the diameter of the outside holes 34-1 and 34-2 is equal to the inside diameter of the reinforcing tube 16. And the length of the reinforcement tube 16 is equal to the distance which separates the interior of the external holes 34-1 and 34-2 from the flanges 26-1 and 26-2.

The outer skin 18, detailed in FIG. 3, is composed of a structure layer 36 and a flexible protection 37. The structure layer 36 is produced by a matrix 38 and a reinforcement 40.

Here the matrix 38 is made of a flexible polyurethane or polyester resin 42 and the reinforcement 40 is made of a polyester fabric 44. Above this layer of structure 36, a flexible protection 37 is put in place. This flexible protection 37 is composed of cork 48 and a binder 50, which agglomerated together, constitute a uniform flexible and damping envelope. The binder 50 is here a flexible polyurethane or polyester resin. In addition to the layer formed with cork 48, the binder 50 also provides a connection between the flexible protection 37 and the structural layer 36.

The core material 20 which completely fills the body 10 of the buoy is here injected expanded polystyrene 52. The volume of material used is very limited, the majority of the volume being air.

The mooring buoy according to the present invention and its advantages are now described. The mooring buoy is a hollow buoy and has a hollow 12 receiving a reinforcement tube 16 allowing the passage of a rope, a chain, or a rod for hooking the hnnpp at a time anrrapp ηηςρ nu fixed çnr Ip seabed Pt at the same time hatpau nui ç'amarrp to the mooring buoy. Each end 22-1 and 22-2 of the buoy is provided with two circular recesses 24-1 and 24-2 which respectively receive a flange 26-1 and 26-2. The housing 12 also receives a reinforcement tube 16 extended from the collar 26-1 to the collar 26-2. The reinforcement tube 16 and the flanges 26 allows better resistance of the buoy and makes it possible not to directly stress the outer skin 18 of the buoy. However, depending on the attachment element used, the buoy may be devoid of flanges 26-1 and 26-2 and of reinforcement tube 16.

Apart from the resistance of the housing 12 of the buoy, it is also important that the outer skin 18 offers great resistance by its composition and the materials used and its flexibility. The combination of a structural layer 36 and a flexible protection 37 makes it possible to take advantage of the advantages of each. The structure layer 36 consisting of polyester resin 42 and polyester fabric 44 here provides a resistant and structuring layer for the body of the buoy. Depending on the matrix 38 used, the reinforcement 40 can be removed. The structural layer 36 is then composed only of resin. The flexible protection 37 is composed of cork 48 and a binder 50 and for this application, the cork 48 is used in the form of powder or granulate, of about a few tenths of a millimeter or less. The mixture of cork 48 and a binder 50, here flexible polyurethane or polyester resin allows the creation of very varied shapes, such as a rounded shape necessary for the production of a buoy, while retaining the desired damping characteristics. The body 10 of the buoy is also filled with injected expanded polystyrene 52. This material has several advantages, such as that of being mainly composed of air, which ensures very high buoyancy with a very reduced weight and a low ecological impact due to manufacturing.

In addition, filling the body 10 of the buoy generally strengthens its resistance to shocks, to potential deformations, and therefore to potential tears in the outer skin 18. In all cases, the buoyancy is ensured even in the event of tearing of the outer skin.

Claims (11)

1. Mooring buoy comprising a body (10), a housing (12) passing through and an outer layer (18), characterized in that the outer layer (18) consists of a structural layer (36) and d '' flexible protection (37). 2. Mooring buoy of claim 1, characterized in that the structural layer (36) consists of a matrix (38) and a reinforcement (40). 3. Mooring buoy of claim 2, characterized in that the matrix (38) of the structure layer (36) is a polyester resin (42) and in that the reinforcement (40) of the layer is a polyester fabric (44). 4. Mooring buoy of claim 1, characterized in that the flexible protection (37) is composed of cork (48) and a binder (50). 5. Mooring buoy of claim 4, characterized in that the cork (48) is in the form of aggregates agglomerated with the binder (50). 6. Mooring buoy of claim 4 or 5, characterized in that the binder (50) is a flexible polyurethane or polyester resin. 7. Mooring buoy according to any one of the preceding claims, characterized in that the body (10) is filled with a core material (20). 8. Mooring buoy according to claim 7, characterized in that said core material used is injected expanded polystyrene (52). 9. Mooring buoy according to any one of the preceding claims, characterized in that the housing (12) receives a reinforcement tube (16). 10. Mooring buoy according to any one of the preceding claims, characterized in that the housing (12) comprises at each of its ends (22-1) and (22-2), circular recesses (24-1) and (24-2). 11. Mooring buoy of claim 10, characterized in that the circular recesses (24-1) and (24-2) receive flanges (26-1) and (26-2).