NO316738B1 - Pongtong with connection for use in a floating construction - Google Patents

Description

The present invention relates to a pontoon for use in a floating structure such as a breeding facility, feeding facility, floating jetty or the like, as well as a system for connecting such pontoons.

Various types of pontoons are known for use as buoyancy bodies, for example in a floating structure such as a fish pond in a fish farm or the like. Such pontoons have in common that they must have a certain buoyancy and that they must maintain this buoyancy under almost all conditions, even if they are exposed to mechanical damage or wear, for example from long-term use in the sea. Furthermore, such pontoons must have the mechanical strength to be able to be included as a buoyant body in a floating construction where the pontoon must be solid enough to carry the necessary load, natural forces and to resist the forces from the mechanical construction.

It is also known to attach pontoons to each other to form different types of facilities, particularly floating facilities, where it is necessary that the entire structure has floating properties. The pontoons can, for example, be connected together so that a floating frame for fishing nets appears, or the pontoons can be connected to each other so that they form jetties or footbridges. Several pontoons that are attached to each other can also be used in connection with the mooring of boats or the division of boat berths, etc. The areas of use here will be many and multiple, and one type of pontoon and system for connecting several such pontoons may well be suitable for several different areas of application. .

There are also various known techniques for connecting pontoons, such as using ropes, ropes or chains as connecting elements. The rope or chain is often threaded through holes in the pontoons and attached so that the pontoon elements are assembled into a functional unit. Because the arrangement is not suitable for absorbing wave movements, the pontoon elements in such an arrangement are exposed to considerable wear and tear, and in the worst case, there is a risk that the pontoon elements will be destroyed.

Of previously known solutions, reference must also be made to the connection of end pontoon pieces to elongated pontoon elements so that these form a floating walkway. The pontoon elements are attached to each other by using attachment plates which are attached to each of the pontoon elements with screws. In addition, fastening straps or rails are attached to the underside of the pontoons to help hold the pontoon elements together.

Connection of pontoons is further known from FR 2,234,182 and GB 1,337,623.

Of previously known technical solutions for connecting pontoons etc., reference should also be made to US patent 2,277,885 and US patent 2,893,722 which describe screw connections for end joints or the like of elements to be connected. Furthermore, US patent 3,675,881 describes a connection with an internal continuous sleeve to prevent the transmission of vibrations, where the sleeve itself is formed from an elastic material. The connection in accordance with this solution will also have a degree of tolerance towards angle differences, for example between pontoons which are affected by waves.

A known type of pontoon is a body made of plastic produced by rotational molding. This is especially beneficial because it is a reasonable form of production where it is possible to create the desired shape, in addition to the fact that it is possible to create a product with good durability. A problem with such plastic pontoons and rotationally molded pontoons is, however, that their constructive strength can be too weak in a number of contexts, in addition to the fact that the strength in connection with connection with other elements can be failing. At the connection point, there will be relatively large mechanical forces that affect the pontoon and these forces will - if the attachment to the pontoon is not solid - could destroy the pontoon's construction.

It is thus a purpose of the present invention to produce a new type of pontoon that is suitable for use in constructive contexts where several pontoons are constructively connected to form a frame structure for a fish pond, lining system, a floating jetty or the like. Furthermore, there is an intention to exploit the obvious advantages of plastic pontoons in general and the advantages of rotational molding of plastic, in particular the economic aspect of rotational molding of plastic, while overcoming the constructive challenges and problems with the use of plastic pontoons. Rotational molding also offers good opportunities for creating a non-slip walkway, which contributes positively to the working environment. It is also a challenge to produce pontoons that withstand mechanical wear and that maintain almost all of their buoyancy even in the event of mechanical damage and ingress of moisture.

It is also a purpose of the present invention to avoid the above-mentioned problems by providing a solution which safeguards the possibility of the fixed connection between the pontoons while the solution is flexible in relation to the wave movements to which the pontoons are exposed. In particular, it is intended to find a solution that is adapted to pontoons with an internally stiffening and load-bearing construction. It is also a purpose of the present invention to avoid the above-mentioned problems by providing a solution to be able to connect several pontoons in a suitable way in a way so that the total floating structure can face natural forces such as wave motion without the pontoons or the connected units being damaged and without the individual parts being exposed to destructive mechanical wear from the movement caused by natural forces or the mechanically applied forces. The interconnection according to the present invention must also be easy to create, easy to inspect and easy to replace in its entirety or in parts should damage occur.

In order to overcome the above stated challenges and problems attached to known technical solutions, in accordance with the present invention a pontoon has been produced for use in a floating structure in accordance with subsequent claim 1 with various embodiments as stated in claims 2-10. A special embodiment of the pontoon is also stated in claim 11 where the pontoon is rotationally cast.

In essence, such a pontoon according to the present invention has a connection for use in a floating structure. The pontoon has an internal cavity volume adapted to the buoyancy the pontoon must have and is designed for connection with nearby pontoons in a floating construction on one or more sides of the pontoon. The pontoon is provided with an internal stiffening and reinforcing construction that extends out of the pontoon and is arranged for connection with a nearby pontoon via a connecting element. The pontoon according to the present invention is particularly characterized by the fact that: - the reinforcing structure projects laterally from the pontoon and comprises a mainly horizontal connecting surface,

- the connection between each of the pontoons is formed via a flexible element,

- the flexible element is placed on the connecting surface,

- a plate-shaped element is placed over the flexible element.

In relation to known technical solutions, and in particular the solution described in patent publication FR 2234182, the present technical solution differs in particular in that the internal stiffening structure protrudes laterally from the pontoon and includes one or more horizontal connecting surfaces, unlike in the known the solution where the internal structure juts straight up. From FR 2234182 it is known to use plastic material, but it is not known to rotationally mold a construction as it is indicated according to the present invention.

The pontoon with internal stiffening construction according to the present invention can also, in a preferred embodiment, be produced by rotational molding. Rotational molding is particularly preferred as this is an inexpensive, safe and simple way of producing pontoons. In one embodiment, the cavity volume in the pontoon is filled with a light and displacing material such as plastic balls, foam, or the like, but preferably EPS foam. This ensures that the pontoon retains a major part of its buoyancy even if it is exposed to mechanical damage or ingress of moisture.

The stiffening and reinforcing construction connects opposite sides of a pontoon. This construction should be rigid and strong and is preferably produced in a strength-giving material such as Kevlar, carbon, various metal alloys, preferably steel. In the preferred embodiment, the stiffening and reinforcing construction is also connected to through openings and welded-on nuts on the underside. This is preferred because it adapts the pontoon particularly well for connection in accordance with the system according to the present invention, as indicated below.

With a solution according to the invention, pontoons of different designs can be connected together in such a way that the resulting pontoon arrangement is resistant to wear as a result of wave stress. The pontoons can be put together in different configurations and will give different designs of a final floating construction. Such an arrangement will be very flexible with regard to the area of use in which it will function. The shape of the pontoon arrangement can thus be specially adapted to the desired purpose, for example fish farming and feeding facilities.

The invention is further exemplified in the attached figures where:

Figure 1 shows a plan view of an embodiment of a fish farm produced with pontoons and a system for interconnection in accordance with the present invention. Figures 2 and 3 show in plan view in more detail pontoons according to the present invention connected in various configurations, as parts of the whole which is indicated in fig. 1. Figure 4 a, b, c shows in perspective and plan a pontoon for connecting four other pontoons according to the present invention. Figure 5 a, b, c shows in perspective and plan view a bracing construction for use inside a pontoon as shown in figures 4 a-c. Figure 6 a, b, c, shows in transparent perspective and plan a pontoon as shown in figure 4 a-c with bracing construction as shown in figure 5 a-c.

Figure 7 a and b shows two pontoons exposed to wave motion.

Figure 8 a and b shows in plan view a bracing construction for a pontoon according to the present invention. Figure 9 a and b shows a plan view of a flexible connecting element for use in the system according to the present invention. Figure 10 a and b shows in plan view part of the connection between a pontoon according to the present invention and the connecting element as shown in fig. 9 a and b. Figure 11 a and b shows in plan view and in more detail a further part of the connection between a pontoon according to the present invention and the connecting element as shown in fig. 9 a and b. Figure 12 shows in section an assembly of a pontoon with a system for connecting the pontoon and a connecting element as shown in fig. 9 a and b, 10a and b and 11 a and b.

Figure 1 shows in plan an embodiment of a fish farm produced with pontoons 1 and 2 and a system for interconnection in accordance with the present invention. The fish farm consists of fifteen corner pontoons 1 which connect pontoons in four directions. Furthermore, the fish farm consists of twelve lengths of connecting pontoons 2 between the corner pontoons 1. This provides a fish farm with eight openings for placing nets or as a construction between the outer edge of nets or the like. A similar configuration can of course also be produced in connection with floating docks or the like and the figure illustrates the flexibility of the pontoons and the system for connection according to the present invention.

Figures 2 and 3 show in plan view in more detail pontoons 1 and 2 according to the present invention connected in various configurations, as parts of the whole which is indicated in fig. 1. The pontoons 1 and 2 are connected by connecting elements 3 according to the present invention. Figure 2 shows a + configuration where a central pontoon 1 is connected along its four sides with further pontoons 2 with the connecting elements 3. Furthermore, each of the pontoons 2 is further connected by further pontoons 2. Likewise, in figure 3 an L configuration is shown where two of the four sides of the pontoon 1 are connected to the pontoons 2. This could, for example, be an outer corner of a fish farm as shown in figure 1.

In Figures 4 a, b, c, a pontoon 1 for connection with four other pontoons according to the present invention is shown in perspective view and plan view respectively. Recesses 4 are shown along each of the straight outer edges of the pontoon 1 for placing a connecting structure. 1 figure 5 a, b, c, in the perspective view and plan view, respectively, a stiffening construction for use inside a pontoon as shown in figures 4 a-c is shown. In particular, the construction is designed for placement in a pontoon according to the present invention, produced preferably by rotational molding. The stiffening structure connects the respective opposite sides of the pontoon via the connections 5 and is designed with a fastener for a connecting element between adjacent pontoons. The attachment is shown as a flat steel 6 with a through hole 7 for bolt connection. The bracing construction is preferably produced in a strength-giving material such as steel which is rigid and can absorb the forces that the pontoon cannot otherwise absorb and which thereby solves the problems and challenges outlined in the introduction above. Figure 6 a, b, c, respectively, show in transparent perspective and plan view a pontoon 1 as shown in figure 4 a-c with bracing structure 5 as shown in figure 5 a-c with fasteners 6, 7. Figure 6b also shows how the lowering 4 enables a submerged location of the connection, which provides a flat surface and again contributes to a good working environment. Figure 7 a and b shows two pontoons 15 exposed to wave motion. The pontoons are provided with railings 20. The figure illustrates the challenges and problems that the system for connecting pontoons according to the present invention must solve. In particular, the focus must be on the fact that the pontoons must be designed with a chamfered angle so that the pontoons are not crushed or damaged during wave movement. Figure 8 a and b shows in plan view a stiffening structure for a pontoon 2 according to the present invention, similar to the stiffening structure shown in Figure 5 a-c. Here too, connecting structural elements 5 are used, for example of steel or other strength-giving material, with connecting elements 6 with through openings 7 at each end for connection with a connecting element 3 that holds two pontoons together.

In figures 9 a and b, a flexible connecting element 3 for use in the system according to the present invention is also shown in plan view. The flexible element is produced from a flexible material such as rubber or textile. The element 3 is also provided with through openings 9 for bolt connection with the pontoons. It is an advantage if the length of the flexible element 3 is essentially equal to the width of the pontoon or at least the attachment in the pontoon, as this provides good lateral stability and resistance to mechanical damage and wear. Figures 9 a, b, 1 Oa, b, 11 a, b and 12 further show an exemplified but preferred embodiment of the connection between two pontoons as indicated in the system for connecting pontoons according to the present invention. However, it should be noted that this is only one possibility among many and it is possible for a person skilled in the art to produce many concrete variants within the scope of the protection initiated in the subsequent patent claims. Figure 10 a and b shows in plan a part 6 of the connection between a pontoon according to the present invention and the connecting element shown in fig. 9 a and b. This part 6 is preferably placed on the underside of the connection according to the system in accordance with the invention as later indicated in Figure 12. The connecting part 6 has a number of through openings 7 and a nut is welded on one side of the element 6 at each of the through openings. Alternatively, it will be possible to provide the through openings with threads.

Figures 11 a and b show in plan view and in more detail the "second", further part of the connection between a pontoon according to the present invention and the connecting element as shown in fig. 9 a and b. This second part 11 is provided with a number of through openings corresponding to the number and location of the openings 7 on the first part of the connection. On one side of the element 11, washers 10 are also welded on.

As shown in figure 11 a, a chamfer 14 or a "nose" is further created along the long side of the element 11.

Figure 12 also shows in section an assembly of a pontoon and a connecting element as shown in fig. 9 a and b. It appears here that the element 6, which is part of the internal stiffening construction, is placed on the underside of the connection, i.e. on the underside of the elastic connecting element 3. The element 3 is also placed on top of the element 6. When the element 11 is placed over the element 3, the welded disc 10 has a smaller diameter than the through opening 9 in the flexible element and the disc lies down in this opening. Thus, the element 11 comes into contact with the element 3 and this element 3 is clamped to a connection between the elements 6 and 11. The connection is fixed with bolts 12 which are threaded through from the upper side and which enter the welded nuts 8 on the underside of the element 6.1 addition, it is placed a washer 13 between the head of the bolt 12 and the welded washer 10.

Claims (11)

1. Pontoon with connection for use in a floating structure, which pontoon (1,2) has an internal cavity volume adapted to the buoyancy the pontoon (1,2) must have, and which pontoon (1, 2) is designed for connection with nearby pontoons (1, 2) in a floating structure on one or more sides of the pontoon (1, 2), which pontoon (1, 2) is provided with an internal stiffening and reinforcing structure (5) that extends out of the pontoon (1, 2) and is arranged for connection with a nearby pontoon (1,2) via a connecting element (3), characterized in that - the reinforcing structure (5) projects laterally from the pontoon (1, 2), and comprises a mainly horizontal connecting surface (6), - the connection between each of the pontoons (1, 2) is formed via a flexible element (3 ), - the flexible element (3) is placed on the connection surface (6), - a plate-shaped element (11) is placed over the flexible element (3). 2. Pongtong according to claim 1, characterized in that the pontoon (1, 2) is produced by rotational molding. 3. Pongtong according to claims 1-2, characterized in that the cavity volume in the pontoon is filled with a light and displacing material. 4. Pongtong according to claim 3, characterized in that the light and displacing material is plastic balls or foam, preferably EPS foam. 5. Pongtong according to claims 1-4, characterized in that the stiffening and reinforcing structure (5) connects the surfaces for connection (6) on opposite sides of a pontoon (1,2). 6. Pongtong according to claims 1-5, characterized in that the flexible element (3) is provided with through openings (9). 7. Pongtong according to claims 1-6, characterized in that the further connection (11) is provided with through openings corresponding to the through openings in the flexible element (3) and the surfaces for connection (6) and that a bolted connection is formed between the surfaces for connection (6) and (11) through the openings (9) in the flexible element (3). 8. Pongtong according to claims 1-7, characterized in that the stiffening and reinforcing structure (5) has a connection (6) with through-threaded openings (7) or welded-on nuts (8) on the underside. 9. Pongtong according to claims 1-8, characterized in that the connection (11) is welded to washers (10) on one side, which washers (10) have a diameter that is smaller than the through openings in the flexible element (3). 10. Pongtong according to claims 1-9, characterized in that the flexible element (3) has a length substantially equal to the width of the attachment (6) in the pontoon. 11. Pontoon with connection for use in a floating structure, which pontoon (1, 2) is formed from a plastic material and has an internal cavity volume adapted to the buoyancy the pontoon (1,2) must have, and which pontoon (1, 2) is designed for connection with nearby pontoons (1, 2) in a floating structure on one or more sides of the pontoon (1, 2), which pontoon (1, 2) is provided with an internal stiffening and reinforcing structure (5) that extends out of the pontoon (1, 2) and is arranged for connection with a nearby pontoon (1, 2) via a connecting element (3), characterized in that the reinforcing structure (5) projects laterally from the pontoon (1, 2) and comprises a mainly horizontal connecting surface (6), and that the pontoon with internal stiffening structure (5) is produced in plastic material and that the pontoon is produced by rotational molding .