System and method for detecting watertightness in the annular space of flexible lines

The invention claimed is: 1. A system for detecting water tightness of an annulus in a flexible line from a connector, the system comprising: a device containing a plunger and a cylinder, a sealing system, a pressure gauge and a rod, the rod being connected to a chamber for controlled piston-cylinder-type actuation, a face of the cylinder being open and configured to be fitted into a safety valve of the connector of the flexible line; a remotely operated underwater vehicle (ROV) including an arm that moves a handle; a control chamber; and a coupling and anchoring system. 2. The system of claim 1 , wherein the sealing system is formed by energizing polymer or metal rings against a wall and a base of a recess, and by opening threads in the wall of the recess or another mechanical device enabling permanent or non-permanent fastening. 3. The system of claim 1 , wherein the ROV is connected to a control device. 4. The system of claim 1 , wherein the connector of a flexible line includes pressure safety valves (PSV). 5. The system of claim 1 , wherein the device contains a sampling chamber and a valve. 6. The system of claim 3 , wherein the device contains a hexagonal socket, a rod and a handle, and the chamber of the control device is replaced by the chamber. 7. A method for detecting watertightness in a flexible line from a connector according to the system in claim 1 , comprising: positioning the device in a seat including a pressure safety valve in the connector, activating the seals against a wall of the seat, moving the plunger forward using hydraulic action of the ROV, checking operation of the seal by fluctuation of the pressure value in the pressure gauge, withdrawing the plunger to cause a pressure drop, resulting in an induced pressure verified by the pressure gauge, if an indicated pressure of the annulus is equal to a hydrostatic pressure at the seat, then the annulus is flooded with seawater, but if the pressure indicated by the pressure gauge is less than the hydrostatic pressure at the seat, then the annulus is watertight. 8. The method of claim 7 , wherein the induced pressure is preferably at least 20 bar less than the hydrostatic pressure, or any other value from 2 bar. 9. The method of claim 7 , wherein a loss of water tightness is indicated by the pressure in the pressure gauge not dropping when the plunger is withdrawn. 10. The method of claim 7 , wherein the device comprises a sampling chamber and a valve, a presence of the sampling chamber, the valve, and the watertightness result enables the following steps to be carried out: connecting a valve and a vacuumized sampling chamber to a sensing connection of the pressure gauge; withdrawing the plunger, causing the safety valve to open, and thereby filling the cylinder with fluid from the annulus; opening the valve; filling the sampling chamber with samples, allowing the pressure to equalize with the cylinder; and closing the valve and removing the sampling chamber. 11. The method of claim 10 , comprising: removing the control chamber; engaging an uncontrolled chamber; moving an assembly comprising a hexagonal socket, the rod and the handle to the position of the valve using commands given to the ROV; rotating the handle to remove the valve that is screwed on; withdrawing the socket with the connected valve to remove said valve from the seat; and where applicable, removing the uncontrolled chamber to swap the valve.