WO1989009855A1 - Device for influencing buoyant substances located on the surface of water - Google Patents

Abstract

The device (1) described comprises a flexible tubular floating body (2) which can be inflated with compressed air and a ballast system (49) arranged on the lower surface (14) of said body. The floating body (2) is divided into two chambers (5, 6) by a flexible dividing wall (4) arranged on the longitudinal axis (3) of the hollow body. The upper chamber (5) is airtight and the lower chamber (6) is designed as an open water tunnel on the front faces (7, 8) of the hollow body (2). Reinforcing rings (9) are arranged in the hollow body (2) at a distance apart and radially to the longitudinal axis of the hollow body, and are either rigid or in the form of inflatable chambers connected to the envelope (12) of the hollow body (2).

Description

Device for influencing substances which are capable of being exposed to vibrations on the surface of water

The invention relates to a device for influencing floatable substances located on the surface of water according to the preamble of claim 1.

5 Such a device is already known from DE-PS 34 14 905. This device can be used as a seaworthy oil barrier with the aim of preventing the oil carpet from drifting or spreading out, forcing it together and / or pushing it towards the scoop. A swim on the water

The end of the oil carpet moves at the same speed as the current. The oil carpet can be drifted and torn by wind. The time course of oil spreading on the water is therefore an essential criterion for the successful removal of oil spill

15 chen. It is therefore necessary that carpets of oil are held together on the water until measures can be taken to skim off the oil.

The object of the invention is to improve the device 20 of the type mentioned at the outset so that it can be put into operation in order to prevent it from harbors, oil rigs, tanker bridges and the like, lowered in water, in the event of an oil accident, by being surfaced . 25

According to the invention, the object is achieved by the characterizing features of claim 1.

Further features of the invention are described in the dependent claims and are explained in more detail below using the example of the devices shown in the drawings. It shows:

1 shows an embodiment of a device in a top view,

2 shows the device according to FIG. 1 in a schematic view in detail, 3 shows the device according to FIG. 1 in a side view in section,

4 shows a further embodiment of a device in a transverse view,

5 shows the device according to FIG. 4 in a side view in section,

6 shows a further embodiment of a device in a transverse view,

FIG. 7 shows a coupling device for holding the device according to FIG. 6 in a schematic plan view.

The device 1 for influencing floatable substances located on the surface of water consists of a tubular, flexible hollow body 2. This is divided into two chambers 5, 6 by means of a horizontal partition 4 arranged coaxially to the longitudinal axis 3 of the hollow body. The upper chamber 5 is airtight to the atmosphere and can be inflated by means of compressed air or the like. The lower chamber 6 is open at the end faces 7, 8 of the hollow body 2, so that the lower chamber 6 is filled with water when the device 1 is applied to the water (FIGS. 1 and 2). Openings 45 are formed in the dividing wall 4, so that the immersion depth of the device is variable, since water can also penetrate into the upper chamber 5 under appropriate pressure conditions. Tensile forces acting on the device 1 are transmitted from the partition 4, so that the device 1 can adapt well to movements of the sea. In the hollow bodies 2, stiffening rings 9 are arranged at a distance from one another radially to the longitudinal axis 3 of the hollow body. The stiffening rings 9 can consist of a solid material. It is also possible to design the stiffening rings 9 as inflatable chambers connected to the casing 12 of the hollow body 2. In this case, the chambers are also filled with compressed air when the upper chamber 5 is filled with compressed air, so that the jacket 12 of the device 1 spans radially. At the end sections of the hollow body 2, the upper chamber 5 is covered in the region of the end faces 7, 8 by a closure tarpaulin 19 extending from the jacket 12 to the partition 4. In one of the closure tarpaulins 19 there is a valve 11 as a compressed air connection, via which the upper chamber 5 can be filled with compressed air. A vent valve 23 is also provided.

In the area of the apex 14 of the lower chamber 6, a chain 46 is arranged as a ballast weight. Furthermore, fastening means are arranged on the end faces 7, 8 of each hollow body 2, which are used to connect one hollow body 2 to another hollow body 2.

In the device 20, flange rings 25 are arranged on the end faces 7, 8 of the hollow bodies 2 to be connected, which are connected to the jacket 12 and have openings 27 distributed over their circumference in the region of the flange webs 26 (FIGS. 4 and 5). The flange rings 25 can take over the function of the stiffening rings on the end section side. The connection of the

Flange rings 25 of two hollow bodies 2 take place here by means of conventional screw bolt connections. An annular buoyancy body 52 surrounding it is formed on each flange ring 25. Furthermore, the flange rings 25 on the upper apex 24 have shackle eyes 50 for a buoy line or buoy rope and on the lower apex 14 shackle eyes 51 for intermediate anchor cables 49. It is also possible to form eyelets 34 on the end faces 7, 8 of the hollow bodies to be connected to one another, to which shackles 35 of hawser 28 can be fastened. In this case, cross frames 31 are expediently arranged in the plane of the stiffening rings 9 on the end section side, the webs 32, 33 of which have the eyelets 34 on the end section side (FIG. 6). In order to prevent water flowing through in the area of the cables 28, a coupling can be arranged between the cross frames 31 of two hollow bodies 2 to be connected to one another. FIG. 7 shows a coupling 54, by means of which the device 21 according to FIG. 6 can be attached, for example, to a quay at the level of the tidal range. This coupling 54 consists of vertical plates 38, 39, 40 which extend along the height of the hollow body 2. The plates 38, 39 are combined into a pair of plates 37 and fastened to a mounting plate 53. The mounting plate 53 can be arranged stationary on land, for example on a quay. The plate 40 is fastened to the cross frame 31 of the flange ring 25 and is guided between the plates 38, 39 of the plate pair 37 to close the coupling 54. In order to increase the sealing effect, sealing profiles 43, 44 are arranged on the free end sections 41, 42 of the plates 38, 39, 40, which seal the plates 38, 39, 40 when the plate 40 is inserted into the plate pair 37 effect against each other. A vertically arranged shackle rail 47 is provided on the edge of the mounting plate 53, on which a hawser 28 is mounted so as to be vertically displaceable by means of a shackle. Each hawser 28 is also fastened with its other end section by means of a shackle 35 to one of the eyes 34 of the cross frame 31.

The devices 1, 20, 21 described are outstandingly suitable as object protection, since they can be kept lowered in the water at vulnerable points. Watercraft can therefore normally pass through the device unhindered. For this reason, the devices gen 1, 20, 21 particularly suitable for preventive protection against ports, oil rigs and tanker bridges. However, it is also possible to use the devices 1, 20, 21 as floating wave breakers in order to protect endangered wells, coasts and port facilities from waves. Depending on the roughness of the sea, the immersion depth of the devices can be adjusted by adapted water / compressed air filling in the upper chamber 5, so that the waves fall when the device rolls over and lose their dangerous energy due to the fact that they break down.

Claims

PATENT CLAIMS 1. Device for influencing floatable substances located on the surface of bodies of water, consisting of a hose-like flexible floating body inflatable with compressed air, on the underside of which a device for balancing is arranged, the floating body being divided into two by means of a flexible partition wall arranged on the longitudinal axis of the hollow body Chambers is subdivided, of which the upper chamber is airtight and the lower chamber is open as a water tunnel on the end faces of the hollow body and stiffening rings are arranged in the hollow body at a distance from one another radially to the longitudinal axis of the hollow body, which are rigid or inflatable with the jacket chambers connected to the hollow body are formed, characterized in that openings (45) are formed in the dividing wall (4), that in the region of the lower apex (14) a chain () extending over the length of the device (1) 46) or the like as ballast weight ht is arranged and that on the flange rings (25) on the end faces (7, 8) there is provided a closure tarpaulin (19) closing the upper chamber (5), with a valve (11) in at least one closure tarpaulin (19) is designed as a compressed air connection and a vent valve (23). 2. Device according to claim 1, characterized in that an annular buoyancy body (52) surrounding it is formed on each flange ring (25). Apparatus according to claim 1 and 2, characterized gekenn¬ characterized in that on the flange ring (25) on the upper Schei¬ tel (24) shackle eyes (50) for a buoy line or buoy rope and shackle eyes on the lower apex (14) (51) are formed for intermediate anchor cables. 4. The device according to claim 1 to 3, in which at the A coupling is provided on each end face, in which a plate fastened to the flange ring is inserted between the plates of a further pair of plates and loops for attaching hawser are provided on the flange ring, characterized in that the plate pair (37) is attached to a mounting plate (53 ) is attached, which is designed as a holder and has a vertically arranged shackle rail (47) on the edge, on each of which a hawser (28) is vertically displaceably mounted by means of a shackle (35).