The invention refers to a procedure for capturing accidental pressurized fluid leaks, resulting from pipes which transport these products, in case of their breaking or cracking due to various causes, and also to a corresponding leak-proof and flexible piping, used in order to stop the uncontrolled leakage in the environment of the respective fluids, limiting pollution effects and losses.

There are known some procedures and mechanisms for the control and capturing of accidental oil leaks, which involve the freezing of the affected pipe section (patent GB 1601462, US patent 4, 396, 031 , US patent 4, 203, 472).

There are known a procedure and a mechanism for the prevention of pipe leaks, in document GB1601462. The known procedure consists in the application of a cooling agent on the damaged section of the pipe, using a collar mounted around the pipe.

It is also known the document US 4203472 A which describes a mechanism and a procedure for stopping leaks, which consist in the application of a cooling agent on the damaged section of the pipe, using a mechanism provided with radial pipes.

It is also known the document WO 2009100450 A1 which describes a method for preventing pipe leaks through "bandaging" the damaged section.

It is also known the document JP 2001056086 A which describes a leakage prevention piping from a pipe made up of a textile coating secured around the pipe using a zipper.

A known procedure and a mechanism for capturing accidental pipe leaks are shown in the Romanian patent no. 127040. Their disadvantage is that belts of adequate width must be manufactured or prepared, in order to generate a precise diameter to match with that of the damaged pipe and, if the damaged section of the pipe has different diameters, the securing and sealing of the system become much more complicated.

The purpose of this invention is the improving of the procedure and piping for catching fluid leaks from damaged pipes, when the section of the damaged pipe where the piping is mounted shows level differences, bendings, bondings, flanges, valves etc.

The flexible piping for catching accidental fluid leaks is mounted on a damaged pipe in which there is pressurized fluid, and is made up of a number n > 1 of rubber or composite material bands, designed with at least one heat shrink area, which have some zipper dents (for example a sealed Liquid Tight or Gas Tight zipper - elements individually known) on both longitudinal flanks. The bands are designed with at least one network of electrical resistances on the inside, which may be connected to a power supply using terminals (water-proof connector, element individually known).

The bands may have different lengths or widths, and may be connected with other bands through the connection of the zippers, depending on the size of the pipe and its flaw. Through the connection of the zippers the bands are provided with, it is obtained a piping which can coat a pipe with a certain diameter even under the conditions of level differences, bendings, bondings, flanges, valves, etc. Next, through heat shrinking, the piping will mould on the elements of the damaged pipe and collars will be provided at the ends in order to ensure tightness.

In order to start the piping heat shrinking process, heating through electric voltage will be applied at the terminals of the resistance system or through an external spray of hot air/steam or another heat generating source.

The procedure and flexible piping for catching accidental leaks, according to this invention, have the following advantages:

It is appropriate as a fast intervention solution for stopping discharges from broken or cracked pipes and for guiding the caught fluids towards a storage tank, due to the fact that it does not need personalised systems, exactly fitted on the damaged pipe, thus reducing the time required to prepare/manufacture bands with adequate width, which are necessary in order to generate exactly a certain diameter.

The procedure may also be applied for interventions on flaws of submarine pipes or cables, because the bands may be assembled both manually and using a ROV (Remote Operated Vehicle), and they may be provided with handling eyelets.

The intervention time is also reduced due to the fact that the mechanic removal of elements with different levels (flanges, valves, reductions etc.), operation that is difficult and costly in such situations, is no longer necessary, due to a piping with an adjustable diameter, and due to the shrink ratio of at least 3:1 of the heat shrink material used for the piping.

It ensures the adequate insulation of the coating, the material having adequate thermic, mechanic and chemical insulation features. The heat shrink zipper band system may also be used as a reinforcement and insulation element in situations meant to prevent accidents on continuous pipes or continuous cables which have a coating/structure deterioration risk.

An example of the invention is presented below, regarding figures 1-6, which represent: fig. 1 , view of a flexible piping applied over a damaged pipe, in the incipient phase of zipper closing, connected through a connection pipe to a network provided with a pump, in the initial state and after the heat shrinking of the bands.

fig. 2, view of a flexible band having a section made from heat shrink material in which the heating resistance is provided with connection terminals, having a zipper system on the lateral sides;

fig. 3, view of a system made up of multiple bands, interconnected through the closing with zippers, in various stages;

fig. 4, view of a flexible piping, prepared for its application over a damaged pipe, in which the initial diameter of the piping obtained through the closing of the zippers corresponds with the dimensions of possible level differences from the damaged pipe (flanges etc.)

fig. 5, view of a flexible piping applied over a damaged pipe, on which heating is applied through an external spray of hot air/steam.

fig. 6, view of a flexible piping, when it is closed on the body of a B pipe which is longitudinally cracked (non-broken pipe), in its initial state and after the heat shrinking of the bands.

The procedure for capturing accidental under pressure fluid leaks, according to the invention, consists in the mounting of a flexible piping on a damaged pipe A, in which there is an under pressure fluid, and which is made up of a number of bands 1 , which have some zipper dents 2 (for example Liquid Tight or Gas Tight sealed zippers) on both longitudinal sides. The bands are made of rubber or composite materials and are provided with at least one heat shrink area 3, the known material having a shrink ratio of 3:1 or a different one, which has the shrinking temperature of approximately 105°C - 150°C The shrinking only takes place transversally. Bands 1 are framed together, using zipper locks 4, whose movement is performed through normal hauling, even manually, of certain flexible elements 5, made of cable or chain, which may be driven independently or simultaneously; in the latter case they may be connected using a normal connection system.

In an example, the bands are designed with at least one network of electrical resistances 6 on the inside, which may be connected to a power supply using terminals 7. Through the connection of the zippers the bands are provided with, it is obtained a piping which can coat a pipe with a certain diameter even under the conditions of level differences, bendings, bondings, flanges, valves etc. Thus, its dimensions are automatically adapted through heat shrinking, so the piping will mould on the elements of the damaged pipe. The application of temperature in order to initiate the heat shrink process (through electric voltage at the terminals of the resistance system or by the external application of a hot air/steam spray) will be made if the zippers are just partially closed, in order to avoid generating stress in the system. Subsequently heat shrinking and securing with collars 8, the zippers closing will continue until the complete sealing of the created system. Additional collars will also be used, so that the captured fluid will be guided towards the opposite end of the piping with zippers, end which is connected to a storage and transportation system for the captured fluid.

The heat shrinking of the material the bands are manufactured from is ensured through the application of a voltage at the terminals of the electric resistances of the bands, generating their heating up to the temperature of 105°C -150°C, when the transversal shrinking of the bands and, implicitly, of the piping made up of these bands will take place.

As an alternative, or as a backup solution in case of an electric shortage, a spray of steam or hot air may be applied from a steam generator 10, or heat generated from a different source, in order to heat the bands material at temperatures between 105°C - 150°C in order to trigger or complete the heat shrink process. The time needed for applying a temperature of 105°C -150°C necessary for heat shrinking is only a few minutes.

Drainage is generated through the gradual closing of zippers and the gradual guiding of the captured fluid towards the opposite end of the piping, which may be controlled through the mounting of manometers, to indicate system pressure and depressurisation, and through the possibility of mounting drainage valves and a pump 9, in order to create a depressurisation in the flexible piping system. Thus, the products flow is directed towards the desired area.

In case of pipes which are longitudinally cracked, without being interrupted, the piping formed from a number of > 1 bands, provided with heat shrink areas will be applied, so that the cracked pipe is coated. Both ends of the piping are secured on the same damaged pipe. In order for the piping with zippers to fit the forms and levels of the damaged pipe, electricity will be applied at the terminals of the electric resistance, or a spray of hot air/steam from the steam generator 10 or heat generated from another source will be applied.

The same procedure may be applied for the protection of cables with damaged insulation, or for ensuring the additional protection of cables (even underwater) in areas with a high risk of mechanic, chemical, thermic etc. damage, without being necessary to interrupt (cut) the cables. The procedure using this invention has the advantage of not being limited by the cable's diameter, its form or its orientation or by the environment where the cable is found.