NO861934L - LIQUID CONSTRUCTION CONSISTING OF MOVING CONNECTED, EXTENSIVE SECTIONS AND MOVING CONNECTION FOR USE IN CONSTRUCTION. - Google Patents

Description

Floating jetty facilities and marsh facilities, i.e. facilities with floating walkways and net bags for fish farming, are exposed to great mechanical stress in rough seas. It goes without saying that such constructions must be assembled from sections with a certain mobility in relation to each other, and usually the sections are connected by some form of hinges. However, these are exposed to heavy stress and wear and tear, and they sometimes make a lot of noise.

The purpose of the invention is to provide a floating construction of the above-mentioned kind where the sections have good mobility in relation to each other, and a movable coupling which is reliable and relatively quiet.

A floating structure consisting of movably connected, elongated sections comprises a support structure with floating bodies and a walkway, characterized in that each section is connected at at least one end to a similar section, either directly or via an intermediate connection unit, by means of a or several universally flexible connecting elements which are arranged near the longitudinal axis of the section.

The connecting element is plug-shaped with a central portion of elastomeric material and a head at each end for substantially fixed connection with each structural element at the end of each section. In this way, the middle part of the joint can absorb angular movements between the structural elements during elastic deformation. It is primarily about bending movements in all possible planes, but also about limited twisting movements. At the same time, the elastomeric material will provide a certain straightening effect, i.e. that the connecting elements will try to keep the sections in the desired relative position.

The invention will appear in more detail from the following description with reference to the drawing which shows an embodiment of a movable coupling according to the invention applied to a lake system. Fig. 1 is a plan view of a weir system with floating sections forming a substantially square pattern for hanging net bags, not shown. Fig. 2 shows the connection between two sections that form an angle with each other, as an intermediate connection unit in the form of a 90° bend is used. Fig. 3 shows a connection according to the invention between two coaxial structural elements in e.g. each a floating dock section (not shown).

Fig. 4 is a section along the line IV-IV in fig. 3.

Fig. 5 shows the connection in fig. 4 seen from the left.

Fig. 6 is an elevation of a coupling element according to the invention.

In fig. 1 shows a mare system consisting of elongated sections 1 and 2 which are connected together by means of intermediate coupling units 3, 4 and 5. The intermediate coupling units 3 are angle units as shown in fig. 2, the intermediate connection units 4 are intended for connecting three sections 1 in T-shape, while finally the intermediate connection units 5 are intended for use when connecting sections 2 end-to-end as well as connecting sections 1 on both sides.

Each section 1 consists of a longitudinal tubular construction element 6 which constitutes a support structure for the section. Instead of a hollow pipe, open channel-shaped structural elements can be used. Both such channels and closed pipes can have any desired cross-section, but the structural elements shown in the drawing have a circular cross-section. Each construction element 6 carries a crossbar 7 which can be clamped or welded to the pipe 6, and which in turn carries a suitable walkway of e.g. expanded metal or wood. Furthermore, each structural element 6 carries a floating body 8 at each end. The sections 2 differ from the sections 1 in that they are wider and comprise two parallel structural elements 6' which are interconnected by means of the yokes 7.

The intermediate connection units 3, 4 and 5 carry eye hooks 9 which serve for mooring. To ensure that the mooring extends approximately horizontally from the lake system, each mooring includes a buoy 10.

The connection between the structural elements or between these and the intermediate connection units can best be seen from fig. 2-6. These elements are connected together by means of a plug-like connecting element 11 which is shown in fig. 6, and which can suitably consist of rubber or another elastomeric material, at least as regards the thinner central part 12 which is the part which deforms elastically and thus allows bending movement and limited twisting between the structural elements 6. The connecting element 11 has, in addition to the central part 12, a head 13 at each end for insertion and retention in each of the construction elements 6 as shown in fig. 2-4. The retention can take place with the help of a transverse bolt 14 which extends through both the structural element 6 and the head 13. In the structural element 6, a flat iron 15 can be attached which, when the coupling element 11 is inserted into the structural element 6, engages with a groove 16 in the head 13 so that this is held in the correct position in the construction element 6 when the bolt 14 is inserted, i.e. a position where the hole in the head 13 aligns with the corresponding hole in the construction element 6.

It will be clear that the coupling element can be designed differently than shown in the drawing. Thus, the middle part 12 does not need to be thinner than the heads. If it is thinner, it does not have to be cylindrical as shown in fig. 6. Furthermore, the transition between the head 13 and the middle part 12 can be made less sharp. Finally, the head 13 can be held in the structural element in other ways than by means of a bolt 14.

To achieve the best possible mobility between the sections, the axis of the coupling elements 11 should lie as close as possible to the longitudinal axis of the section. This is clearly the case for sections 1. When more than one connecting element is used at the end of each section, as shown for sections 2, the twisting movement becomes smaller. It may therefore be desirable to place the connecting elements closer together, e.g. in that instead of being attached directly to the construction elements 6', these are attached to separate tubular construction elements that are closer to the longitudinal axis of the section and are connected to the construction elements 6' via a yoke. It may then also be preferable to use a single connecting element 11 at each end. If this is the case, X-shaped intermediate connection units must of course be used instead of the units shown in the drawing 5.

Claims (8)

1. Floating structure consisting of movably connected, elongated sections (1, 2) comprising a support structure with floating bodies (8) and a walkway, characterized in that each section is connected at at least one end to a similar section, either directly or via an intermediate coupling unit (3, 4, 5), by means of one or more universally flexible coupling elements (11) which are arranged near the longitudinal axis of the section. 2. Construction as stated in claim 1, characterized in that the coupling element (11) is inserted into a hollow or channel-shaped construction element (6) which is arranged at the end of the section. 3. Construction as stated in claim 2, characterized in that the hollow or channel-shaped construction element (6) extends for essentially the entire length of the section and constitutes the most essential part of its support structure. 4. Movable connection between elongated sections (1, 2) in a construction that floats on or in water, e.g. a mooring facility or a floating jetty, characterized in that it comprises a plug-shaped connecting element (11) with a middle part (12) of elastomeric material and a head (13) at each end for an essentially fixed connection with each respective construction element (6) at the end of each section, the connecting element ( 11) accommodates angular movements between the structural elements mainly by elastic deformation of its central part. 5. Coupling as specified in claim 4, characterized in that the head (13) of the coupling element (11) is intended for insertion into a hollow or channel-shaped structural element (6) in each section. 6. Coupling as stated in claim 4 or 5, characterized in that the head (13) of the coupling element (11) also consists of an elastomeric material and is optionally reinforced. 7. Coupling as stated in one of claims 4-6, characterized in that the head of the coupling element (11) has a transverse hole for a bolt (14) or the like for securing the coupling element (11) in the construction element (6). 8. Coupling as specified in one of claims 4-7, characterized in that the central part (12) of the coupling element (11) is thinner than the heads (13) at the ends.