CA2419231C - Underwater tool with sealing device - Google Patents

Abstract

To obviate the need for hydraulic lines from the surface, external water pressure is used to compress a seal member (20) and form a seal with a surrounding pipe (30). Valve (24) is opened at depth to allow water to act on a piston (16), moving it within a chamber (14) so as to compress the seal member (20). A second valve (29) may be opened so that water acts on the opposite end of the piston (16) to release the seal member (20).

Description

UNDERWATER TOOL WITH SEALING DEVICE

This invention concerns a tool for use in deep water, which tool consists of or includes a sealing device.

Such a tool, with a sealing device, may be used for recovery of pipelines from such great depths that all work has to be carried out by remotely operated vehicles, as opposed to divers. A number of known tools of this type use hydraulic pressure to operate the sealing device, whereby the tool fastens itself to a pipe section, for hauling same back to the surface. Obviously, these tools rely on having a hydraulic line from the surface to the tool, which may be on the sea bed.
An object of the present invention is to obviate the need for such a hydraulic line.

According to the present invention, in a sealing device of an underwater tool, external water pressure at depth can act on a piston, which is movable within a chamber, to cause it to compress a seal member.

The invention will be described further, by way of example, with reference to the accompanying drawings, in which:

Figure 1 is a schematic sectional view of a pipe and of a sealing device according to the invention, which will locate in the pipe; and Figure 2 is a perspective view of a pipeline recovery tool fitted with a sealing device similar to that shown in Figure 1.
Referring to Figure 1, the exemplary sealing device comprises a cylindrical housing (10) having a central through bore (12).

An annular chamber (14) is formed in the housing (10) and an annular piston (16) is axially slidable within this chamber (14). The piston (16) is longitudinally shorter than the chamber (14) so that a space remains within the chamber at one or both ends of the piston (16), depending on its position therein. Two 0-ring seals (18) are provided between the piston (16) and the radially inner wall of the chamber (14), and similarly two 0-ring seals (19) are provided between the piston (16) and the radially outer wall of the chamber (14). A
lateral extension (26) of the piston (16) projects into an opening in the housing (10) adjacent an annular sealing member (20) which may be of any conventional deformable packing material, such as rubber or synthetic rubber or substitutes therefor. Movement of the piston (16) in the direction indicated by arrow "A" causes its lateral extension (26) to compress and deform the sealing member (20) causing it to bulge outwardly. Thus, when the housing (10) is a close fit inside a pipe section (30), a tight seal can be created between the housing (10) and the pipe interior by movement of the piston (16) in the direction of arrow "A".

A first inlet in the form of a conduit (22) leads into one end of the chamber (14) from the exterior and is fitted with a first shut off valve (24). A second inlet in the form of a conduit (28) leads into the opposing end of the chamber (14) from the exterior and is fitted with a second shut off valve (29).

At the surface, before submersion of the sealing device, the chamber (14) is filled with air at normal atmospheric pressure and the valves (24) and (29) are closed. The sealing device is then lowered to the sea bed and, by means of a remotely operated vehicle (not shown), is manoeuvred into position inside the pipe section (30) awaiting recovery. The vehicle then opens the first valve (24) for about a minute to allow water through the conduit (22) into the first end of the chamber (14), thus moving the piston (16) in direction "A" and compressing the seal (20) to engage the pipe (30). The valve (24) is then closed to maintain the pressure on the seal (20) as the pipe (30) is recovered to the surface.

If it is necessary to disengage the sealing device housing (10), from the pipe (30) while the latter is still on or near the sea bed, the vehicle can open both the valves (24) and (29) to allow water to enter via both the conduits (22) and (28) and equalise pressure at the respective ends of piston (16). The seal (20) will then recover back to its original shape and size and.disengage the pipe (30).

The sealing device housing (10) would then have to be returned to the surface for resetting of the piston (16), i.e.
replenishing the chamber (14) with air and closing off the valves (24) and (29) again.

Figure 2 simply shows at (40) where a device such as that in Figure 1 can be incorporated in a larger Ballgrab recovery tool. Such a tool advantageously includes means for pumping water out of the pipe (30) via the throughbore (12), to aid its recovery. A check valve (32) in the bore (12) can be used to prevent backflow of water as it is pumped out.

The foregoing is illustrative and not limitative of the scope of the invention and many variations in detail are possible.

Claims (2)

1. A tool for use under water comprising a sealing device wherein a piston, which is movable within a chamber, is capable of causing compression of a seal member, in which respect a first valve actuated inlet to the chamber at a first end of the piston allows external water pressure to act on the piston to compress the seal member, and a second valve actuated inlet to the chamber at an opposing end of the piston allows external water pressure to act on the piston to release the seal member.

2. A tool according to claim 1, wherein the seal member is annular.