System and method making it possible to deactivate at least one cylinder of an engine, intake manifold and heat exchanger including said system

What is claimed: 1. A system for deactivating at least one predetermined cylinder of an operational multicylinder engine, wherein each cylinder of said multicylinder engine comprises an intake duct with an inlet connected to an intake manifold and an outlet connected to the cylinder to allow the intake of combustion gases from the intake manifold to the cylinder, the system comprising: a first movable sealing means for sealing the inlet of the intake duct of the predetermined cylinder, the first sealing means being movable between a first position for allowing the intake of combustion gases towards said intake duct and a second position for blocking the intake of combustion gases towards said intake duct; a recirculation duct for connecting said intake duct of said predetermined cylinder to an exhaust gas supply; and a second movable sealing means for sealing said recirculation duct, the second sealing means being movable between a first position for blocking the communication between said recirculation duct and the exhaust gas supply, and a second position for allowing this communication; wherein the first movable sealing means is connected to a rotation shaft provided with a gearing system, and wherein the second movable sealing means is provided with a rack, said rack being in direct contact with said gearing system to allow the first movable sealing means to move between its first position and its second position by rotation, and allow the second movable sealing means to move simultaneously by translation between its first position and its second position. 2. The system as claimed in claim 1 , wherein the recirculation duct is connected to the intake duct of said predetermined cylinder with a connection positioned between the inlet and outlet of said intake duct. 3. The system as claimed in claim 1 , wherein the first movable sealing means comprises a flap. 4. The system as claimed in claim 1 , wherein the second movable sealing means comprises a valve. 5. An intake manifold for a multicylinder engine comprising: outlets for connecting the intake manifold to one or more inlets of one or more intake ducts of one or more cylinders of the multicylinder engine, wherein at least one outlet of said intake manifold comprises the system as claimed in claim 1 . 6. A heat exchanger for use inside an intake manifold for a multicylinder engine, said heat exchanger comprising: outlets for connecting the heat exchanger to one or more inlets of one or more intake ducts of one or more cylinders of said multicylinder engine, wherein at least one outlet of the heat exchanger comprises the system as claimed in claim 1 . 7. A method for deactivating at least one predetermined cylinder of an operational multicylinder engine, wherein each cylinder of said multicylinder engine comprises an intake duct with an inlet connected to an intake manifold and an outlet connected to the cylinder to allow the intake of combustion gases from the intake manifold to the cylinder, wherein the inlet of the intake duct of at least said predetermined cylinder comprises a first sealing means, said sealing means being movable between a first position for allowing the intake of combustion gases towards the intake duct and a second position for blocking the intake of combustion gases towards the intake duct, and wherein the intake duct of at least said predetermined cylinder is connected to an exhaust manifold by means of a recirculation duct comprising a second movable sealing means, the second movable sealing means being movable between a first position for blocking the communication between said recirculation duct and said intake duct of said predetermined cylinder and a second position for allowing this communication, the first movable sealing means being connected to a rotation shaft provided with a gearing system, and the second movable sealing means being provided with a rack, said rack being in direct contact with said gearing system to allow the first movable sealing means to move between its first position and its second position by rotation, and allow the second movable sealing means to move simultaneously by translation between its first position and its second position, the method comprising: monitoring a power of the loaded multicylinder engine by means of a monitoring system; comparing the power of the loaded multicylinder engine with a predefined threshold value; establishing that the power of the loaded multicylinder engine lies below the predefined threshold; triggering the movement of the first sealing means towards the second position for blocking the intake of combustion gases to the intake duct of the predetermined cylinder; and triggering the movement of the second movable closing means from the first position to the second position to allow the intake of exhaust gases towards the intake duct of the predetermined cylinder.