Pendular handling system for a press line

The invention claimed is: 1. A pendular handling system for handling parts in a press line, the press line having a central vertical plane and a press line flow direction, the system comprising two articulated robots mounted on opposite sides with respect to the central vertical plane of the press line, each robot comprising at least a robot base, a robot wrist, a first arm and at least four rotational axes in series between each robot base and each robot wrist, the at least four rotational axes including a first axis and a last axis, the last axis being defined as a rotational axis of the robot wrist, and each robot being mounted with the first axis of the at least four rotational axes horizontal and mounted perpendicular to the press line flow direction, and, the two robots being mounted such that the first axes of the two robots, which are horizontal and perpendicular to the press line flow direction, are aligned with each other; the first arm of each robot operable to swing in a vertical plane in the press line flow direction; each robot further comprising an additional arm that has a proximal end fixed to the robot wrist and a distal end carrying an additional rotational axis; the system further comprising a crossbar with its ends attached to the additional axes of the two robots and adapted to carry a gripper system for picking parts to be handled; the rotational axis of the wrist of each robot, the additional rotational axis carried at the distal end of each additional arm, and the crossbar, all being disposed as parallel to each other. 2. A system as claimed in claim 1 , the robots being wall mounted. 3. A system as claimed in claim 2 , each robot being mounted with its base fixed to a vertical wall. 4. A system as claimed in claim 1 , comprising the motor is mounted on the additional arm near the proximal end, and a transmission between the motor and the additional rotational axis. 5. A system as claimed in claim 1 , the at least four rotational axes including a wrist rotation axis; and, the robots being configured such that the wrist rotation axes of the wrists of the robots and the additional rotational axes are parallel to each other and to the first axes of the robots. 6. A system as claimed in claim 1 , each robot being mounted on a structure attached to a press of the press line. 7. A system as claimed in claim 1 , the crossbar being adjustable in length. 8. A system as claimed in claim 1 , the robots being 4-axes robots. 9. A system as claimed in claim 1 , comprising a control unit configured to operate the two robots jointly, such that the two robots can handle a part between them. 10. A stamping press line comprising successive stations arranged along a press line flow direction and at least one handling system as claimed in claim 1 for one or both loading parts to a station of the stamping press line or unloading parts from a station of the stamping press line. 11. A system as claimed in claim 1 , the robots being mounted with their first axes above the central line of the press line, such that the robot wrists remain below the first axis of the robots during a press loading/unloading operation. 12. A method for handling parts in a press line, comprising: providing two articulated robots having at least four rotational axes in series between a robot base and a robot wrist, each robot further comprising an additional arm that has a proximal end fixed to the robot wrist and a distal end carrying an additional rotational axis, the at least four rotational axes including a first axis and a last axis, the last axis being defined as a rotational axis of the robot wrist; mounting the robots on opposite sides with respect to the central vertical plane of the press line, with their first axes horizontal and perpendicular to the press line flow direction, the first arm of each robot disposed to swing in a vertical plane in the press line flow direction, including mounting the two robots such that the first axes of the two robots, which are horizontal and perpendicular to the press line flow direction, are aligned with each other; and operating the robots with the swing of the first arm of each robot in a vertical plane in the direction of the press line flow to unload parts from one station of the press line and load the parts in another station of the press line the method further comprising attaching a crossbar to the two robots with the ends of the crossbar attaching to the additional axes of the two robots and the crossbar carrying a gripper system for picking parts to be handled; disposing parallel to each other the rotational axis of the wrist of each robot, the additional rotational axis carried at the distal end of each additional arm, and the crossbar. 13. A method as claimed in claim 12 , the robots being operated jointly to handle a part between them. 14. A method as claimed in claim 12 , the two robots being operated alternately, such that while one robot unloads one part from a first station and loads it to a second station, the other robot returns empty from the second station towards the first. 15. A method as claimed in claim 12 , further comprising providing a crossbar with its ends attached to the additional axes of the two robots and adapted to receive a gripper system for picking the parts to be handled. 16. A method as claimed in claim 12 , further comprising mounting the robots with their bases attached to vertical walls.