FI81406B - Connecting arrangement - Google Patents

Abstract

Arrangement for articulated interconnection of two floating bodies, such as for example floating landing stages. In order inter alia to eliminate the jointlessness found in known arrangements for the stated purpose, the present arrangement comprises an attachment 5 fastened to each body 2 and, positively locked to these attachments, an articulation body 4 which is made in one piece from elastomeric material and comprises an articulated reinforcement 7 which is enclosed in the elastomeric material and consists of plates 8, preferably made of metal, which are located in the end portions of the articulation body, and U-shaped hoops 9 fastened to their respective plate 8 and hooked into one another to form the articulation of the articulation body, which is stiffened by the elastomeric material.

Description

1 Coupling device 81 406

The present invention relates to a device for articulating two bodies, preferably 5 floating bodies, such as, for example, floating platforms.

If the floats are manufactured in long periods or lengths, there is a high risk of them breaking due to waves or winter time 10 ice, and for this reason it is necessary to manufacture the floats in relatively short lengths or periods and connect them to the desired length at the installation site. This connection must, for natural reasons, be articulated and has hitherto been regularly obtained by means of chains, sin-15 pins, loop bolts and the like attached to the floating platforms. However, the main disadvantage of this type of connection is that it is relatively uncontrollable, which causes instability between the bridge sections and thus does not allow them to act as a single unit in terms of receiving the loads present and dividing the splitter. This uncontrollability also causes a certain amount of movement between the bridge sections, which thus allow them to lie down and strike each other and apart, which exposes the joint and its attachment to the bridge sections to high stresses and causes metal-to-metal contacts in these previously known joints. due to a certain noise that can be perceived as very harmful, especially in floating docks used, for example, in water facilities for fish farming and farming.

It is therefore an object of the present invention to provide a device as described above which does not have the above-mentioned disadvantages but which is guided in all directions and which nevertheless connects two pieces, such as two floaters, as if they were in principle formed in one piece. and which, in addition, is formed so that it can be easily switched on and off, has a long service life, is silent, and can withstand high tensile and compressive forces, and also acts as a damping suction.

2 81406 1 This object is achieved by a device according to the present invention having the features set out in the claims.

The invention will now be described in more detail with reference to the accompanying drawings, in which Fig. 1 shows a top view of two sections of a floating platform connected to each other by devices according to the present invention, Fig. 2 is a perspective and sectional view of one articulation of the present device; and Fig. 4 is a schematic plan view 10 of a modified embodiment of a hinge member included in the present connecting device.

In the drawings, reference numeral 1 denotes a floating platform assembled from several sections 2, the sections of which are articulated to one another by one or more connecting devices 3 according to the present invention, whereby the number of connecting devices 3 between two bridge sections 2 can be varied. to a certain extent from the lifting force.

The connecting device according to the invention comprises a hinge piece 4 and fasteners 5 for this purpose, which are fastened to each other on opposite sides 2a of the two berth sections. The bracket 5 has a shape corresponding to the shape of the articulated bodies so that a releasable former locking is provided between the articulated body 4 and the corresponding fastener 5 attached to the bridge section 25.

The articulation body 4 is formed in one piece from an elastomeric material, for example rubber, and in the embodiments shown in Figures 1-3 is I-shaped, the flanges 6 of which form locking flanges 30 for releasably and deformably locking the fasteners 5. Inside the articulation body 4 7, which is metal, preferably steel. This reinforcement 7 comprises transverse plates 8 which are inside the flanges 6 and which form their reinforcements, and to the plates 8 are attached U-shaped 35 second brackets 9 which form a reinforcement in the web 10 of the joint body and which pass through each other and thus form a reinforcement joint , which allows movement in all directions.

Il 3 81406 1 The brackets 9 as well as the plates 8 are firmly bonded to the elastomeric material, for example by vulcanization, and are completely surrounded by this material. In addition, in the embodiments shown in Figures 1-3, the arcuate portions 11 of the brackets 9 are cast at a distance from each other, for example at a distance from each other corresponding to half the internal height of each bracket or which may also be both greater or less than half the height. thanks to this, the elastomeric material in the web 10 of the joint piece acts as a shock absorber for both tensile and compressive forces. The invention is of course not limited to such an interlocking position of the bracketing parts 11 of the brackets, but may be molded to rest directly against each other or against the opposite plate 8, depending on the type of forces they primarily have to receive and the degree of damping desired. In many cases, it is preferred that the arcuate parts of the brackets be cast in direct contact with each other.

The elastomeric material completely enclosing both the plates and the brackets 9 forming the joint of the reinforcement makes the joint guide rigid and this guide stiffness can be adjusted as desired and as needed 20 for example by increasing or decreasing the cross-sectional area in the joint web 10 and / or changing the elastomeric material elasticity modulus. For floating platforms intended for lighter loads, such as waterworks, the relatively small cross-sectional area in the web 10 of the articulated body is often sufficient to achieve the required steering rigidity, and for this purpose in the embodiment shown in Figures 1-3 the brackets 9 are fixed to the respective plates 8 at 45 °. with respect to the longitudinal plane of symmetry 12 (Fig. 1) passing through the joint body 4, thereby providing the smallest possible cross-sectional area of the web. If the web 10 of the hinge piece does not require the smallest possible cross-sectional area, one bracket 9 may be attached to said plane of symmetry 12 and the other to a plane perpendicular to this plane, as schematically shown in Figure 4. Such placement of brackets may advantageously be used in cases where considerable steering rigidity, 35 which may be the case for floating platforms intended for the operation of heavy vehicles. The brackets 9, the cross-sectional dimensions of which must of course be adapted to the maximum tensile forces which can be thought to occur in each individual case, are attached to the respective plate 8 preferably by welding and in Fig. 3 the brackets 9 are shown fitted in holes formed in the respective plates and welded to the back side indicated by reference numeral 5 on roll 13 in said figure.

When the hinge member 4 is inserted into its brackets 5 from above, its locking flanges 6 in the embodiment shown in Fig. 1 abut the corresponding locking flange 14 of the respective bracket, the free ends of the locking flanges 14 of each bracket 10 being spaced slightly larger than the thickness or width of the hinge member web 10. . Each locking flange 14 comprises a leg formed of an angle iron 16, the other leg 15 of which is fastened directly or indirectly via a fastening plate (not shown), for example by welding, to a strip 17 fastened to the berth section 2 by bolts, screws or nails such as dotted lines 18 shown, and the length of which must also suitably extend along the longitudinal sides of the platform section in order to be able to receive the tensile loads present. Each such strip may be provided with one or more brackets 20 5. The space inside the locking flanges 14 of each bracket and the strip 17 is dimensioned taking into account the locking flanges 6 of the articulation so that no greater clearance occurs between the brackets 5 and the articulation 4 in the installed position. moving downwards with respect to their bracket 5, their underside is provided with a pin or bolt inserted into the hole in the branches 15 of the corresponding bracket and secured with axial movement, and a similar pin or bolt 19 is also arranged above each hinge member 4 to prevent it from crawling upwards from its bracket 5.

Fig. 4 shows a slightly modified embodiment of an articulated body 4, the articulated reinforcement 7 of which is schematically marked with broken lines 20 and in which the locking flanges 6 cooperating with the fasteners 5 are turned towards each other and reinforced by an angled bent reinforcing plate 8. Each fastener 5 can be forms a T-iron or two angle irons with the locking flanges 14 of the locking flanges 14 turned outwards.

Il 5 81406 1 The present invention is not limited to that described above and shown in the drawing, but can be modified and modified in many different ways within the scope of the inventive idea defined in the claims. As for the elastomeric material, it may be formed of natural rubber or synthetic rubber, and as one example of many, SBR rubber may be mentioned, and the hardness of the material should be in the order of 40-80 Shore, preferably 60-70. Furthermore, the fasteners 5 and the parts 6 cooperating with the fasteners of the articulated body can also have shapes other than those described above and shown in the drawings, for example a dovetail joint, in order to provide mutual locking of the shape bone.

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Claims (9)

Device for articulating two bodies, preferably floating bodies, such as floating platforms, characterized in that it comprises a bracket (5) attached to each body (2) and a hinged body (4) securely locked thereto, formed in one piece from an elastomeric material and comprising an articulated sidewall, a reinforcement (7) completely enclosed in an elastomeric material, consisting of plates (8), preferably of metal, located at the end portions of the articulated body, and U-shaped brackets (9) each attached to its own plate (8) and is hooked together to form a joint stiffened by the elastomeric material of the hinge member. 1 Claims Device according to Claim 1, characterized in that the brackets (9), preferably comprising metal, are cast inside the articulated body (4), their arcuate parts (11) being substantially against one another. Device according to Claim 1, characterized in that the brackets (9), preferably comprising metal, are cast inside the articulated body (4) at a distance from each other in the form of arcuate parts (11). Device according to one of the preceding claims, characterized in that the articulation body (4) is I-shaped with reinforcing plates (8) molded into the reinforcements of the transverse arms of the articulation body, which arms form locking flanges (6) for the corresponding locking flanges (5). (14) for co-operation between the articulation member (4) and each of its fasteners (5). Device according to one of the preceding claims, characterized in that the shape and locking between the articulation body (4) and its fasteners (5) is removable. 7 81406 Device according to one of the preceding claims, characterized in that the reinforcing brackets (9) are arranged at an angle of approximately 45 ° to the longitudinal plane of symmetry passing through the nipple (4). 6 81406 Device according to one of the preceding claims, characterized in that the fasteners (5) of the device are fastened directly or indirectly to the respective pieces (2). Device according to one of the preceding claims, characterized in that the articulation body (4) is locked against axial movement relative to its fasteners (5). Device according to one of the preceding claims, characterized in that the elastomeric material of the articulation (4), which preferably comprises rubber or a similar synthetic material, has a hardness of 40 to 70 Shore, preferably between 50 and 60 Shore. 20 25 30 35 e 81406