Device for the soft reduction of round-section metal products

The invention claimed is: 1. A soft reduction device of a casting product made of metal with a round-section having liquid or partially liquid core, for reducing a thickness of said casting product, coming, from a continuous casting machine, while maintaining the round section, the device comprising at least two soft reduction units, wherein said at least two soft reduction units are arranged in series, wherein each soft reduction unit is provided with a group of only three rolls arranged at 120° from one another, and wherein the group of three rolls of one soft reduction unit is offset by a predetermined angle with respect to the group of three rolls of an adjacent soft reduction unit. 2. The device according to claim 1 , wherein said predetermined angle is 180°. 3. The device according to claim 1 , wherein there are provided only two soft reduction units and the group of three rolls of a first soft reduction unit is offset by 180° with respect to the group of three rolls of a second soft reduction unit, which is subsequent and adjacent to the first soft reduction unit. 4. The device according to claim 1 , wherein there are provided from three to eight soft reduction units. 5. The device according to claim 1 , wherein there are provided four soft reduction units and the group of three rolls of a soft reduction unit is offset by 180° with respect to the group of three rolls of the subsequent and adjacent soft reduction unit. 6. The device according to claim 1 , wherein each soft reduction unit is provided with position adjustment means for adjusting the position of at least two rolls of said three rolls, adapted to adjust a position of the rolls with respect to a center of the metal product to be pressed keeping centerline planes of the three rolls, which are perpendicular to respective rotation axes of said three rolls, at 120° from one another in any working position. 7. The device according to claim 6 , wherein a first soft reduction unit comprises an upper roll having a respective rotation axis and arranged above two lower rolls having a rotation axis inclined by a 60° angle with respect to the rotation axis of the upper roll, while the subsequent and adjacent second soft reduction unit comprises a lower roll having a respective rotation axis, and arranged fixedly below two upper rolls having a rotation axis inclined by a 60° angle with respect to the rotation axis of the lower roll, or vice versa. 8. The device according to claim 7 , wherein in said first soft reduction unit the position adjustment means are adapted to adjust the position of all three rolls, while in said second soft reduction unit the position adjustment means are adapted to adjust only the position of the two upper rolls. 9. The device according to claim 8 , wherein the position adjustment means of said first soft reduction unit comprise first translation means, adapted to translate the upper roll along a centerline plane thereof which is perpendicular to the respective rotation axis, and second translation means adapted to translate the two lower rolls along respective inclined planes X, Z, the two inclined planes X, Z being convergent and symmetrical with respect to the centerline plane of the upper roll. 10. The device according to claim 9 , wherein said first translation means comprise a first cylinder, and said second translation means comprise at least one second cylinder for each lower roll, adapted to linearly move the respective lower roll along a fixed guide. 11. The device according to claim 8 , wherein the position adjustment means of said second soft reduction unit comprise a symmetrical lever mechanism symmetrically connected to the two upper rolls, the levers being symmetrical with respect to a centerline plane of the lower roll orthogonal to the rotation axis of said lower roll, and an actuating means of said symmetrical lever mechanism, said symmetrical lever mechanism being configured to translate the two upper rolls along respective inclined planes X′, Z′, the two inclined planes X′, Z′ being convergent and symmetrical with respect to said centerline plane of the lower roll. 12. The device according to claim 11 , wherein said actuating means is a cylinder. 13. The device according to claim 8 , wherein the position adjustment means in said second soft reduction unit comprise two actuating means, arranged symmetrically with respect to a center plane of the lower roll orthogonal to the rotation axis of said lower roll, said actuating means being adapted to move the upper rolls linearly along respective inclined planes X′, Z′, the two inclined planes X′, Z′ being convergent and symmetrical with respect to said center plane of the lower roll. 14. The device according to claim 1 , wherein at least one roll of said three rolls is motorized in each soft reduction unit. 15. The device according to claim 1 , wherein a first soft reduction unit comprises an upper roll having a respective rotation axis and arranged above two lower rolls having a rotation axis inclined by a 60° angle with respect to the rotation axis of the upper roll, while a subsequent and adjacent second soft reduction unit comprises a lower roll having a respective rotation axis and arranged fixedly below two upper rolls having a rotation axis inclined by a 60° angle with respect to the rotation axis of the lower roll, or vice versa. 16. A plant for a continuous production of round-section metal products comprising a continuous casting machine provided with at least one round-section crystallizer and a respective casting curve; a soft reduction device according to claim 1 arranged near an end of the respective casting curve, a processing line of the round-section metal product exiting from said soft reduction device, wherein lower rolls of the at least two soft reduction units are positioned so that an extradoss of the casting curve coincides with a pass-line of said processing line. 17. A continuous production process of round-section metal products, by means of a plant according to claim 16 , comprising the following steps: continuously casting a round-section metal product, by means of a continuous casting machine provided with at least one round-section crystallizer and a respective casting curve; carrying out a soft reduction of said round-section metal product, while keeping the round section through the whole soft reduction operation by means of the soft reduction device arranged near the end of the respective casting curve; processing the round-section metal product exiting from said soft reduction device by means of the processing line.