The present invention relates to a buoy for use i loading or unloading of a flowable medium, especially oil, comprising an outer buoyancy member arranged to be introduced and secured in a submerged downwardly open receiving space in a floating vessel, and a central member rotatably mounted in the outer member, which central member is intended for anchoring to the sea bed and is arranged for passage of medium between a transfer line which, in operation, is coupled to the lower end of the central member and a tube system on the vessel.

A buoy of the above-mentioned type is disclosed in the international patent application No. PCT/NO92/00056. With the buoy according to this prior application, the floating vessel, when the buoy is placed in the receiving space thereof, is rigidly attached to the outer buoyancy member of the buoy and is rotatable about the central member which is anchored to the sea bed by means of a suitable anchoring system, and the buoy itself thus constitutes a rotating body (turret). When connecting the buoy, this is pulled up into the receiving space of the vessel by a winch means on the vessel and an associated pick-up line which is connected to the submerged buoy to carry out the pulling. Thereafter the buoy is secured by means of a locking mechanism in the receiving space.

This buoy structure entails a number of substantial advantageous in relation to previously known buoy loading systems. Thus, connection and disconnection between vessel and buoy can be carried out in a simple and quick manner, even in bad weather with relatively high waves. Further, the buoy may remain connected to the vessel in all weathers, a quick disconnection being able to be carried out if a weather limitation should be exceeded.

The buoy according to the prior application broadly has a flat underside, something which results in that the buoy becomes more movement sensitive than necessary, under the influence of wave and current forces in the water. Said buoy shape also results in that the fastening points for the transfer line and for the anchoring lines of the buoy are located adjacent

to.the flat underside of the buoy, something which has appeared to be less favourable in practice.

Thus, it is an object of the invention to provide a buoy of the stated type which has improved hydrodynamic and hydrostatic properties, and which is simultaneously designed such that the fastening point for the transfer line, and preferably also the fastening points for the anchor lines, are lowered to a lower level in relation to the outer buoyancy member of the buoy. Another object of the invention is to provide a buoy structure giving the possibility for arrangement of one or more buoyancy chambers in the central member of the buoy, in addition to buoyancy chambers in the outer buoyancy member of the buoy.

For the achievement of the above-mentioned objects there is provided a buoy of the introductorily stated type which, according to the invention, is characterized in that the central member is provided with a lower extension body having an outer peripheral portion abutting on and essentially corresponding to the outer periphery of the adjacent end of the outer buoyancy member, and having a lower portion which is downwardly tapering from the outer peripheral portion.

In that the central member of the buoy has a lower extension body- which is shaped in the stated manner, there is obtained a hydrodynamic shape resulting in less movement of the buoy in the water, because of waves and underwater currents, both when the submerged buoy is located at the lowest level, and during the connecting phase, and in addition there is achieved that the buoy more easily falls out and is released from the receiving space when disconnecting the buoy. in an advantageous embodiment of the buoy according to the invention a number of fastening means for securing the upper ends of anchoring lines for the anchoring of the buoy are astened at intervals along the periphery of the outer peripheral portion of the extension body. In that the fastening points for the anchor lines are fastened to the outer periphery of*the buoy, direct access from the surface is achieved, so that inspection, maintenance and replacement are simplified.

According to another advantageous embodiment, the extension body comprises at least one buoyancy chamber for

buoyancy or ballast material, and the buoyancy chamber o chambers preferably is/are arranged to be able to be filled o emptied, so that the buoyancy may be varied according t requirement. Auxiliary buoyancy will also be able to be intro 5 duced, so that the buoy may be brought up to the surface withou any need for a pick-up line.

The invention will be further described below i connection with an exemplary embodiment with reference to th drawings, wherein o Fig. 1 shows a side view of a buoy according to th invention;

Fig. 2 shows a plan view of the buoy in Fig. 1;

Fig. 3 shows a partly longitudinally sectioned view o the buoy in Fig. 1; s Fig. 4 shows an enlarged side view of a bearing suppor member in the buoy;

Fig. 5 shows a partial side view, partly in section an on an enlarged scale, of the central member of the buoy; and

Fig. 6 shows a partly sectioned side view, on a furthe o enlarged scale, of the details of the buoy structure accordin to Fig. 3.

The buoy loading system in which the buoy according t the invention is intended to the be used, is described in th international patent application No. PCT/NO92/00054, an 5 reference is made to said application for a further descriptio of this system. The fundamental construction and operation of th buoy correspond to what is disclosed in the aforementione international application No. PCT/NO92/00056, and reference i made to this application for a description of details in this o o connection. The following description therefore largely will b limited to a description of the differences in relation to th buoy according to the prior application.

The buoy 1 shown in Figs. 1-3 comprises an oute buoyancy member 2 and a central member 3 which is rotatabl 5 mounted in a central, longitudinally extending opening in th outer member. As appears from Figs. 1 and 2, the buoy in th shown embodiment has a circular peripheral shape, and the oute buoyancy member 2 has an upwardly tapering conical shape.

The design of the central member 3 is shown more i

detail in the sectional view in Fig. 3 and in the enlarged views in Figs. 5 and 6. The central member comprises a hollow shaft or stem member 4 which is mounted in the outer member 2 by means of a replaceable bearing support member 5 carrying a lower radial s bearing 6 and an upper axial bearing 7. When required, the bearing support member 5 may be lifted up from the outer member 2 for inspection and possible replacement of parts (see Fig. 4), in principle in a corresponding manner to that of the buoy according to the aforementioned application. Further, the central o member is provided with a lower extension body 8 having an outer peripheral portion 9 bordering on and shaped in accordance with the outer periphery of the adjacent end portion 10 of the outer member 2, and having a lower portion 11 which is downwardly conically tapering from the outer peripheral portion 9. s A number of fastening means 12 for securing of the upper ends of anchoring lines 13 for anchoring of the buoy are fastened at equal angular intervals along the periphery of the peripheral portion 9 of the extension body 8. In the illustrated case there are shown eight such fastening means in the form of 0 lugs 12 having holes for receiving bolts for the fastening connection members 14 at the ends of a corresponding number of• anchoring lines 13.

The outer buoyancy member 2 as well as the extension body 8 are constructed from sheet or plate elements, as shown in 5 Figs. 3 and 6. Thus, the outer member 2 in the illustrated embodiment comprises ca inner plate cylinder 15 surrounding the bearing support member 5, an outer plate cylinder 16 which is coaxial with.the inner plate cylinder 15, outer truncated-cone- shaped plate members 17, 18, and transversely extending plate 0 elements 19, 20, 21 arranged between the first-mentioned plate elements and connected thereto by welding. In its upper portion the outer member 2 further comprises a pair of truncated-cone- shaped plate members 22, 23 which, at their inner periphery, are fastened to the inner plate cylinder 15 and at their outer 5 periphery are fastened to the upper end portion of the outer plate cylinder 16. An upper annular plate 24 forms the top surface of the outer member 2, and a plate cylinder 25 defines a space for the receipt of a per se known spherical joint 26 which is mounted at the top of the stem member 4 and forms a

flexible transition to a swivel means (not shown) for connecti to the tube system on the vessel where the buoy in operation connected, as described in the aforementioned application.

To the upper portion of the plate cylinder 16 there 5 also fastened a ring or annular element 27 forming a coll having a downwards facing abutment edge 28 for engagement wi locking elements forming part of a locking mechanism which wi be arranged in the receiving space on the vessel in question, f releasable locking of the outer member of the buoy in t o receiving space, as described in the aforementioned applicatio

By means of the described plate arrangement, the out member 2 is divided into a number of chambers which, in a mann not further shown, may be arranged to be filled with or empti of buoyancy or ballast material according to requirement. It wil s be clear that the described arrangement only represents a example, and that the construction may be varied in man different ways.

The lower portion of the outer buoyancy member 2 for a cone member 29 which is constructed to be able to transfer t 0 occurring horizontal forces from the anchor lines 13 to t vessel hull in question. For this purpose there may be arrange strengthening elements in the form of e.g. a number radiall extending beams or plates (not further shown).

At its upper end the outer buoyancy member is als 5 provided with an extension portion constituted by the above mentioned end portion 10. This portion essentially is formed fro a pair of concentric plate cylinders 35, 36 which are fastene by welding to an annular top plate 37 and a lower truncate -cone shaped plate 38. At the central opening of the truncated-cone o shaped plate 38 there is arranged an annular carrier flange 3 for supporting the central member 3 when required, as describe below.

In the illustrated embodiment, the extension body 8 o the central member comprises a lower hollow stem member 4 5 constituting an extension of and being fastened to the upper ste member 4 through a flange element 46 and a hub element 47 whic is connected thereto and is adapted to receive the radial bearin 6. For assembly purposes the flange element 46 comprises a flang ring 48 which is fastened to the flange element by a number o

screws 49, as suggested in Fig. 5. The flange element 46 with the flange ring 48 are arranged to support and retain the entire central member 3 when the bearing support member 5 with the bearing 6 is removed from the buoy. The flange ring 48 then is supported by the above-mentioned carrier flange 39, and the sealing ring 50 shown in Fig. 6 prevents that surrounding water in this situation penetrates between the carrier flange and the flange ring.

Further, the extension body 8 is constructed from an inner plate cylinder 51 and an outer plate cylinder 52 coaxial therewith, an upper truncated-cone-shaped plate member 53 extending parallel with the plate member 38, and a lower truncated-cone-shaped plate member 54 consequently forming the downwardly conically tapering portion 11 of the extension body. These plate elements are connected to each other by welding.

Further, the extension body is stiffened by means of a number of radially extending plate elements 55 which are welded to an upper portion of the lower stem member 45 and to the flange element 46.

The described plate arrangement divides the extension body 8 in several water-tight chambers, e.g. 56 in Fig. 3, for the receipt of buoyancy or ballast material. These chambers may be provided with suitable means (not shown) to be filled with or emptied of buoyancy or ballast material as required. For ex ^' ample, there may be arranged suitable valves or cocks for filling or discharge of air or water. The extension body may be additionally segmented, for example by means of radially and axially extending plates, for division into additional mutually separated chambers, to ensure a desired buoyancy also if a leakage should occur in one or more of the chambers. The lower end-of the lower stem member 45 is adapted for connection to the transfer line 57 of the buoy 1, which line suitably may be connected to the buoy through a flexible joint 58, as shown in Figs. 1 and 3.

As best shown in Fig. 1, the outer buoyancy member 2 of the buoy in its upper portion is provided with a fender means 59. This consists of a layer of an elastic material which, in the area in question, is applied to the sur ace^of the outer member. A suitable material is rubber which may be applied by vul¬ canization. By means of such a fender means the buoy is protected

against possible damage in connection with introduction of th buoy into the receiving space in the vessel in question.

The fender means may be designed in different ways an may e.g. comprise a number of longitudinally extending guidin s edge elements (not shown) which are placed at suitable interval along the periphery of the surface of the outer member, and whic are covered by a possibly replaceable fender-forming material. By the use of such guiding edge elements having a suitabl strength, the outer plate element 18 possibly may be omitted, the o buoyancy material being able to consist of a suitable foa plastic or cast glass fibre material which is reinforced by sai edge elements.

As further shown in Figs. 1 and 3, and in a correspon¬ ding manner to that shown in the aforementioned international s application No. PCT/NO92/00056, the buoy 1 is provided with a so- called lifting bridle 60 which is fastened to the upper part of the buoy and consists of a number of lines 61 (three lines in the shown case) forming a cone contour forming an upper extension of the conical shape of the buoy. At its upper end the liftin o bridle 60 is connected through a yoke 62 to a pick-up line 63 for hoisting and introduction into the receiving space of the vessel. This arrangement is advantageous for contributing to introduction of the buoy into the receiving space in a safe and correct manner. 5

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