Sealing Clamp

Abstract

A sealing clamp that prevents or regulates the transfer of liquids or gases through puncture holes in a vessel. A temporary sealing device to prevent or reduce water penetrating into a ship or other vessel with a holed hull by means of a clamp passing through the hole in the hull and installed and operated from one side of the hull and facilitates pumping out unwanted liquid back through the hole in which it came.

Claims

1. A temporary device to prevent or regulate water or other liquid from flowing into or out of a ship or other vessel with a damaged/holed hull by means of a hollow tube passing through the hole in the hull/vessel with clamping seals on both sides of the ship's hull or vessel and installed and operated from one side of the hull which facilitates connection to a pump in order to pump out unwanted liquid through the same hole in which it came or alternatively with the pump in reverse and connected to a fire hose in order to fight fires or transfer liquid to another vessel.

2. A temporary sealing device to prevent or reduce oil or other liquid from escaping from a tank or other storage vessel which has been holed by means of a clamp passing through the hole in the tank or vessel and installed and operated from the outside of the vessel only or the inside only.

3. A temporary sealing device according to claim 1 and/or 2 that does not require access to both sides in order to make a seal to prevent the flow of liquid or air/gas in either direction.

4. A temporary sealing device according to claim 1 that may be used singularly or in multiples to accommodate elongated holes or splits.

5. A temporary sealing device according to claim 1 that may be operated by divers to seal a hole from the outside of a vessel to prevent oil escaping and or transferring to another vessel.

Description

[0004] The invention will now be described solely by way of example and with reference to the accompanying drawings in which:

[0005] FIG. 1 shows the sealing pan unit, expanding clamp and the connecting hollow tube in the first stage of operation passing through the hole in hull stages of operation.

[0006] FIG. 2 shows the sealing pan unit, expanding clamp and the connecting hollow tube in the second stage of operation with the legs having been expanded by the rubber ball and the rubber ball being held pushed against the hole by the legs and flow of water.

[0007] FIG. 3 shows the sealing pan unit, expanding clamp and the connecting hollow tube in the third stage of operation with the sealing pan tightened up against the hull and ready for the regulating valve to be turned off or connected to a pump for pumping the water back out through the same hole in which it came or for use in fighting fires via a fire hose.

[0008] FIG. 4 shows the sealing pan unit with an alternative swivel clamp and a connecting rod with trigger grip tightening.

[0009] FIG. 5 shows an alternative flexible wire operated expanding clamp in the compact ready to deploy mode being passed into the hole in the hull

[0010] FIG. 6 shows an alternative flexible wire operated expanding clamp in the expanded by wire deployed mode on the outer side of the hull.

[0011] FIG. 7 shows an alternative flexible wire operated expanding clamp in the deployed mode showing the wire tensioning screw and regulating valve.

[0012] In FIG. 1, a sealing pan unit.sup.1 includes a flexible seal.sup.2 is located on the hollow tube.sup.3; the tube is externally threaded to accept sealing washers.sup.4 Metal washers.sup.5 and wing nut.sup.6. Open/close valve.sup.7 is fitted to end of the hollow tube.sup.3.

[0013] The external clamp unit .sup.8 is made up of a fixed plate.sup.9 to which three or more extendible legs 10 are loosely hung by their lugs penetrating through holes in the fixed plate.sup.9 Within the legs.sup.10 a compressible rubber ball.sup.11 is held compacted by the legs.sup.10 when the device is in the closed ready to deploy mode. When needed to expand a retaining tube.sup.12 is pulled off the legs.sup.10 allowing the rubber ball.sup.11 to expand, pushing the legs.sup.10 out. Once pulled towards the outer surface.sup.21 of the hull.sup.20 the rubber ball.sup.11 will be forced into the hole.sup.22 in the hull.sup.20 by the flow of water.sup.23 and fully or partially blocking the hole.sup.22 reducing the volume of water.sup.23 from entering the ship. Alternatively the rubber ball.sup.11 may be substituted for springs.sup.14 in order to expand the legs.sup.10

[0014] FIG. 4 shows an alternative embodiment in which the hollow tube.sup.3 is replaced by a solid bar.sup.25 with a pivoting section.sup.26 The wing nut.sup.6 is replaced with a trigger mechanism.sup.27 with quick release.sup.28 allowing fast locking against a seal gasket.sup.29 and sealing pan unit.sup.1

[0015] FIG. 7 shows a further alternative embodiment in which a flexible cable/wire.sup.30 connects the sealing pan unit.sup.1 with an expanding clamp.sup.31 comprising of one central bar.sup.32 with two end bars.sup.33 pivoted at the ends of central bar.sup.32 The central bar.sup.32 and the two end bars.sup.33 are held in a line, ready to deploy mode, until pushed through the hole in the hull. After pushing through hole in hull the flexible wire.sup.30 is drawn back inboard which pulls the end bars.sup.33 to right angles with the central bar.sup.32 and back until it comes into contact with the outer face of the hull. The sealing pan unit.sup.1 is then pushed along the flexible wire.sup.30 until hard up against the hull.sup.20 and tied off at the end of the tensioning unit.sup.34 fitted to the external side of the sealing pan unit.sup.1 the tensioning unit.sup.34 may then be adjusted to further tighten the seal against the hull.