Heat exchanger

What is claimed is: 1. A heat exchanger ( 2 ) comprising a shell ( 4 ) extending along a longitudinal axis (X), an inlet pipe ( 6 ) and an outlet pipe ( 8 ), through which respectively enters (F 1 ) and exits (F 2 ) a refrigerant flow, and a bundle of pipes ( 10 ) crossing the shell ( 4 ) along the longitudinal axis (X), and comprising a refrigerant flow diffuser ( 12 ) provided inside the shell ( 4 ) downstream the inlet pipe ( 6 ), the refrigerant flow diffuser ( 12 ) extending along the longitudinal axis (X) and comprising openings ( 14 a , 14 b ) through which the refrigerant flows, wherein the refrigerant flow diffuser ( 12 ) comprises a moving element ( 16 ) and a stationary element ( 18 ), the openings ( 14 a , 14 b ) formed in both the moving element ( 16 ) and a stationary element ( 18 ), the moving element ( 16 ) being movable with respect to the stationary element ( 18 ) under action of a pressure force (FP) exerted by the refrigerant flow upstream of the refrigerant flow diffuser ( 12 ) so that the refrigerant flow going through the openings ( 14 a , 14 b ) is adjusted and a differential refrigerant pressure between refrigerant pressure downstream (P 2 ) and upstream (P 1 ) the refrigerant flow diffuser ( 12 ) is kept constant; wherein the pressure force (FP) is in an opposite direction of an effect of gravity on the moving element. 2. The heat exchanger according to claim 1 , wherein the moving element ( 16 ) is movable along a vertical direction (Z), and the pressure force (FP) exerts upwards against a gravity force (FP) exerted on the moving element ( 16 ). 3. The heat exchanger according to claim 2 , wherein in absence of the refrigerant flow through the diffuser ( 12 ), the moving element ( 16 ) is laid on the stationary element ( 18 ) closing the openings ( 14 a , 14 b ). 4. The heat exchanger according to claim 3 , wherein the openings ( 14 a , 14 b ) are provided on the moving element ( 16 ) and the stationary element ( 18 ) in a shifted arrangement so that when the moving element ( 16 ) is laid on the stationary element ( 18 ), the openings ( 14 a ) of the stationary element ( 18 ) are closed by the moving element ( 16 ) while the openings ( 14 b ) of the moving element ( 16 ) are closed by the stationary element ( 18 ). 5. A heat exchanger ( 2 ) comprising a shell ( 4 ) extending along a longitudinal axis (X), an inlet pipe ( 6 ) and an outlet pipe ( 8 ), through which respectively enters (F 1 ) and exits (F 2 ) a refrigerant flow, and a bundle of pipes ( 10 ) crossing the shell ( 4 ) along the longitudinal axis (X), and comprising a refrigerant flow diffuser ( 12 ) provided inside the shell ( 4 ) downstream the inlet pipe ( 6 ), the refrigerant flow diffuser ( 12 ) extending along the longitudinal axis (X) and comprising openings ( 14 a , 14 b ) through which the refrigerant flows, wherein the refrigerant flow diffuser ( 12 ) comprises a moving element ( 16 ) and a stationary element ( 18 ), the moving element ( 16 ) being movable with respect to the stationary element ( 18 ) under action of a pressure force (FP) exerted by the refrigerant flow so that the refrigerant flow going through the openings ( 14 a , 14 b ) is adjusted and a differential refrigerant pressure between refrigerant pressure downstream (P 2 ) and upstream (P 1 ) the refrigerant flow diffuser ( 12 ) is kept constant; wherein the refrigerant flow diffuser ( 12 ) has an angled shape, each of the moving element ( 16 ) and the stationary element ( 18 ) being formed by two angled plates ( 160 , 162 , 180 , 182 ). 6. A heat exchanger ( 2 ) comprising a shell ( 4 ) extending along a longitudinal axis (X), an inlet pipe ( 6 ) and an outlet pipe ( 8 ), through which respectively enters (F 1 ) and exits (F 2 ) a refrigerant flow, and a bundle of pipes ( 10 ) crossing the shell ( 4 ) along the longitudinal axis (X), and comprising a refrigerant flow diffuser ( 12 ) provided inside the shell ( 4 ) downstream the inlet pipe ( 6 ), the refrigerant flow diffuser ( 12 ) extending along the longitudinal axis (X) and comprising openings ( 14 a , 14 b ) through which the refrigerant flows, wherein the refrigerant flow diffuser ( 12 ) comprises a moving element ( 16 ) and a stationary element ( 18 ), the moving element ( 16 ) being movable with respect to the stationary element ( 18 ) under action of a pressure force (FP) exerted by the refrigerant flow so that the refrigerant flow going through the openings ( 14 a , 14 b ) is adjusted and a differential refrigerant pressure between refrigerant pressure downstream (P 2 ) and upstream (P 1 ) the refrigerant flow diffuser ( 12 ) is kept constant; wherein the refrigerant flow diffuser ( 12 ) comprises guides ( 20 ) for the movement of the moving element ( 16 ). 7. The heat exchanger according to claim 6 , wherein the guides ( 20 ) comprise rectilinear slots ( 22 ), and wherein the moving element ( 16 ) comprises pins ( 24 ) inserted in the rectilinear slots ( 22 ) in a sliding manner. 8. The heat exchanger according to claim 1 , wherein each of the moving element ( 16 ) and the stationary element ( 18 ) being formed by at least one plate. 9. The heat exchanger according to claim 1 , wherein the openings ( 14 b ) formed in the moving element ( 16 ) are offset from the openings ( 14 a ) formed in the stationary element ( 18 ).