Method for controlling rotation of a winding spool of a proof-testing machine for optical fiber, corresponding system, computer program product and non-transitory computer-readable carrier medium

The invention claimed is: 1. A method for controlling rotation of a winding spool onto which an optical fiber is wound in a proof-testing machine, said optical fiber being guided in the proof-testing machine at a given line speed from an input pulling device to an output pulling device, then to the winding spool, said input and output pulling device being arranged to subject said optical fiber to a predetermined tensile stress, the winding spool having a rotational speed servo-controlled on the given line speed, the method comprising a step of: upon detection of a break between an output point of the input pulling device and between an input point of the output pulling device, controlling the rotational speed of the winding spool to bring the winding spool to a complete stop, and between an output point of the output pulling device and an input point of the winding spool, passing said optical fiber in a fiber accumulation zone adapted to accumulate a predetermined fiber length preventing an fiber broken end resulting from the break going beyond the input point of the winding spool upon detection of a break by a first sensor, changing the rotational speed of the winding spool by triggering a first deceleration; upon detection of a passage of the fiber broken end by a second sensor, changing the rotational speed of the winding spool by triggering a second deceleration, which overrules the first deceleration until the complete stop of the winding spool; and said predetermined fiber length is superior or equal to a distance travelled by the broken end from the instant of detection of the passage detected by the second sensor until the complete stop of the winding spool. 2. The method according to claim 1 , wherein said distance is calculated on the basis of: a first length of fiber accumulated during a reaction duration elapsed between the instant of detection of the passage and an instant of triggering of a second deceleration of the winding spool, a second length of fiber accumulated during a breaking duration elapsed between the instant of triggering of a second deceleration and the instant the winding spool is stopped. 3. The method according to claim 2 , wherein: the first length is a function of a current line speed and a predetermined reaction duration, the second length is a function of the current line speed and a breaking duration. 4. The method according to claim 1 , wherein the first deceleration is computed on the basis of a current line speed determined at the instant of detection of a break, a predetermined reaction duration and an assumed fiber accumulation length corresponding to the distance travelled by a broken end between the output point of the input pulling device and the input point of the winding spool. 5. A computer program product comprising program code instructions for implementing the method according to claim 1 , when said program is executed on a computer or a processor. 6. A non-transitory computer-readable carrier medium storing a computer program product according to claim 5 . 7. A system for controlling rotation of a winding spool onto which an optical fiber is wound in a proof-testing machine, said optical fiber being guided in the proof-testing machine at a given line speed from an input pulling device to an output pulling device, then to the winding spool, said input and output pulling device being arranged to subject said optical fiber to a predetermined tensile stress, the winding spool having a rotational speed servo-controlled on the given line speed, the system comprising: means for detecting a break between an output point of the input pulling device and between an input point of the output pulling device said means comprising a first sensor and a second sensor; and between an output point of the output pulling device and an input point of the winding spool, a fiber accumulation zone through which passes said optical fiber and which is adapted to accumulate a predetermined fiber length preventing an fiber broken end resulting from the break going beyond the input point of the winding spool, a control device configured to: upon detection of a break by said first sensor, change rotational speed of the winding spool by triggering a first deceleration; upon detection of a passage of the fiber broken end by said second sensor, change the rotational speed of the winding spool by triggering a second deceleration, which overrules the first deceleration until the complete stop of the winding spool; and said fiber accumulation zone is adapted to accumulate said predetermined fiber length which is superior or equal to a distance travelled by the broken end from the instant of detection of the passage detected by the second sensor until the complete stop of the winding spool. 8. The system of claim 7 , wherein the first sensor is located between an output point of the input pulling device and an input point of the output pulling device, and the second sensor is located at an output point of the output pulling device.