US2680859A

US2680859A - Boat-buoy

Info

Publication number: US2680859A
Application number: US264297A
Authority: US
Inventors: Hultberg Ake Albin
Original assignee: Individual
Current assignee: Individual
Priority date: 1951-12-31
Filing date: 1951-12-31
Publication date: 1954-06-15
Anticipated expiration: 1971-06-15

Description

June 15, 1954 AKE ALBIN HULTBERG BOAT-BUOY Filed Dec. 31, 1951 INVENTOR ATTORNEY Patented June 15, 1954 UNITED STATES PATENT OFFICE BOAT-BUOY Ake Albin Hultberg, Aspudden, Sweden Application December 31, 1951, Serial No. 264,297

1 Claim.

This invention relates to a mooring buoy of the kind used for boats or ships in harbours etc. The main object of the invention is to provide means for assembling one or several buoy elements into a combined buoy having sufficient buoyancy according to the requirements of the actual case without necessitating the use of a number of different models of buoys.

A further object of the invention is to provide a standardized buoying element for boat-buoys, which can be used either alone individually to form a relatively small boat-buoy or coupled together with other similar buoying elements to form boat-buoys of a larger size and a greater buoyancy. It will be seen that this construction will involve great advantages in respect to the standardization of the production and reduction of the costs. To achieve this object the buoying element has the form of a closed substantially cylindric body, for instance manufactured of sheet metal and provided with an axial channel passing from end to end and adapted to receive a rod or some other connecting element which extends through the buoying element and is adapted to be coupled to the buoy-chain at one end while its other end is formed as or provided with a loop or hook or some similar attachment element for the mooring of the boat or the like.

A further object of the invention is to provide said cylindric buoying element at its ends with a groove, impression, or ridge extending entirely or partly around the periphery of the cylinder, and adapted to receive and engage with a coupling element, which may consist of a ring of substantially the same diameter as the buoying element.

Still a. further object of my invention is to provide the ends of the said rod protruding from the buoying element with stoppers which may or may not be threaded and by means of which several adjacent buoying elements can be coupled together in the axial direction. Said rings also guide the buoying elements in vertical direction.

One embodiment of the invention is illustrated in the drawing enclosed, in which:

Fig. 1 shows a perspective view of an individual buoying element together with a fragment of the associated chain,

Fig. 2 shows a similar view of three buoying elements coupled together and Fig. 3 shows the coupling ring separately.

The buoying element l according to Fig. 1 consists of a hollow cylinder of metal or other material having an axial channel 2 passing from end to end. If required ballast can be arranged inside the cylinder, for instance in the form of an annular disk of concrete or some other material. Extending through the channel 2 is. a rod 4, the lower end of which is threaded and provided with a stop member or socket lllb screwed thereon. The socket is connected to a ring or loop 4?), which, preferably by means .of a shackle (not shown) is coupled to the mooring chain 5 of the buoy. The top end of the rod 4 may also be threaded and carries a stop element or socket Illa screwed thereon. The top.

end of the rod 4 also carries an extension lllc threaded thereon and having at the top a ring or loop 4a or some other contrivance for attaching the mooring line of the boat. The elements Ito, and lb engage the external end surfaces of the buoy and prevent the rod 4 from being displaced axially in the channel 2, and the rod 4 serves as an axial coupling element for interconnecting several buoying elements in axial relation. A stop screw II can be arranged to lock the extension lflc to the rod 4. Similar stop screws may be provided for the stopper sockets lfla, lilb. If desired, the rod 4 may also carry a carrier consisting of a hub In and radial spokes l2b carrying a ring l2c (Fig. 2) for a fending hawser 6 or some similar lining.

Around the periphery adjacent each end of the buoy element is a flange or abutment la leaving an annular groove or space I at the end for enabling alignment or interconnection of several adjacent buoying cylinders I, l a, lb, as

r shown in Fig. 2. For the interconnection a ring 8 (Fig. 3) is used (which if required can be provided with tongues of some resilient material protruding upwards and/or downwards). The ring 8 is fitted around the adjacent spaces 1 of the two cylinders I, la and la, lb respectively, arranged end to end closely together, and the cylinders are thereby secured in close relation transversely, their axial joining being effected by the rod 4 extending through all of the buoying elements. The length of the rod 4 is, of course, adjusted according to the number of buoying elements I, la, lb to be interconnected. It should also be noted that the width of the ring 8 (which may consist of a steel or iron strap) is chosen so as to overlap the spaces 1 between the flanges la and the joint between two adjacent buoying elements I, la 01' la, lb.

In this manner it is possible to assemble any desired number of practically identical buoy units or elements into a mooring buoy of the size and buoyancy desired according to the actual requirements. The pulling stresses between the mooring line of the boat and the chain of the buoy need not necessarily be taken up by the coupling element 8 but is transferred by means of the rod 4. If desired the rod 4 can consist of several mutually joinable parts, for instance provided with threads, keys, clutches, or shackles, so as to adjust the length of the rod in any suitable manner.

Preferably, the cylinders I, la, H) are practically symmetrical so that it will be of no importance if one or the other of their ends is turned upwards or downwards.

The spaces 1 can be formed as grooves or reduced portions extending along thew'hole' pa riphery or part of it so as to serve as support" for the rings 8. Pending hawsers can be arranged at the free spaces I at the top and/or atthe bottom of the buoy, if desired also outside the'ring or rings 8: The hawser 6 and'its supportmaybe omitted;

While the embodiment of the present invention as herein disclosed; constitutes a preferred form; it is to be understood that other forms might be adopted, all coming within thescope' least two'substantially cylindrical, hollow, closed buoying elements arranged end to end close together'in axialalignment, a rod extending axially through and. protruding from theends of saidbuoying elements, stop members at each protruding end of said rod, said stop members abutting against the ends of the outermost of said buoying elements for preventing displacement of said rod in said buoying elements and for connecting said buoying elements together, a flange adjacent each end of each of said buoying elements, each of said flanges having a greater diameter than the portion of each of said buoying element between said flange" and the nearest end of said buoying element, and a coupling ring extending around the periphery of the adjacent ends of said buoying elements, said coupling ring being located between and abutting the flanges of said adjacent ends of said buoying elements and overlapping" the" joints between the buoying elements.

References Cited in the file of this patent UNITED STATES PATENTS Number Name 7 Date 546,057 Richard Sept. 10, 1395- 1,190,569" Maxwell July l1,-19 l6'- l,320',604 Dame Nov. 4,191 9 1,921,500 Blake AugVS, 1933 2,'4U1',453' Bell et' a1; June 4,1946" FOREIGN PATENTS 7 Number Country Date I 13948" Great Britain 1885 21,122 Great Britain 1891 21263" Great Britain 1903} 781,447

France May 15, 1935