A stretch reducer and/or calibrating rolling mill for rod-shaped bodies, in particular tubular bodies, in particular hollow bodies, said rolling mill comprising a plurality of rolling stands each comprising a plurality of rolling rollers mutually arranged so as to define a passage for said rod-shaped bodies, wherein said rolling stands are arranged in sequence along a rolling direction so that the respective passages are substantially aligned to define a rolling path substantially parallel to said rolling direction, wherein each of at least two of said rolling stands comprises three rolling rollers.

The present invention relates to a multi-stand rolling mill (1) for tubular bodies. The rolling mill comprises a first section (10) for rolling on mandrel defined by a first plurality of rolling stands (15, 15, 15) arranged in sequence along a rolling axis (100). According to the invention, the rolling mill also comprises a second rolling section without mandrel, arranged down-stream of said first section, which comprises a second plurality of stands (25, 25, 26, 27, 26, 27) arranged in sequence along said rolling axis (100). Each stand (25, 25, 26, 27, 26, 27) of said second section (20) comprises three rollers having rotation axes which are arranged at 120? from one another. The rotation axes for each stand (25, 25, 26, 27, 26, 27) are rotated by 180? with respect to corresponding rotation axes of an adjacent stand. According to the invention, at least one stand of said second section (20) comprises a motorized roller having a vertical rotation axis.

The present application relates to a rolling mill (100) for rolling metal rods, wires or pipes along a rolling axis, wherein the rolling mill (100) comprises two or more stands (1) which are arranged one behind the other along the rolling axis and are in each case received in a stand base (70), wherein each of the stands (1) comprises three rollers (20.1, 20.2, 20.3) which are positioned on one roller shaft (22.1, 22.2, 22.3) in each case, surround the rolling axis in a star-shaped manner, and together form a caliber (21), wherein at least two of the three roller shafts (22.1, 22.2, 22.3) of each of the stands (1) are in each case operatively connected to a drive unit (80.1, 80.2, 80.3). The drive unit (80.1, 80.2, 80.3) comprises a motor (81.1, 81.2, 81.3) having a motor shaft, and a gearbox (82.1, 82.2, 82.3) having a Z-shaped gearbox housing (83.1, 83.2, 83.3) and having a drive shaft (84.1, 84.2, 84.3) which is coupled to the motor shaft, and having an output shaft (86.1, 86.2, 86.3) which is offset in parallel with the drive shaft (84.1, 84.2, 84.3) and which is coupled to the roller shaft (22.1, 22.2, 22.3). The drive units (80.1, 80.2, 80.3) are configured in a first and in a second configuration, wherein a part of the drive shaft (80.1, 80.2, 80.3) protruding out of the gearbox housing (83.1, 83.2, 83.3), and a part of the output shaft (86.1, 86.2, 86.3) protruding out of the gearbox housing (83.1, 83.2, 83.3), are in each case arranged so as to overlap axially with or so as to be axially free of overlap with respect to a part of the gearbox housing (83.1, 83.2, 83.3).