Method for securing a lifting movement of a load and lifting device associated thereto

The invention claimed is: 1. A method for securing a lifting movement of a load mechanically coupled to a hook of a lifting device by flexible links, wherein the flexible links, when the load is placed on the ground, are either in a stretched state or in a relaxed state, the method comprising: detecting an initiation of a transitional phase between an initial instant when the load is placed on the ground and a final instant when the load is suspended in the air; and emitting a detection signal of a proscribed lifting situation, if the flexible links are, at least at one instant of the transitional phase, in the relaxed state. 2. The method according to claim 1 , wherein, during emitting a detection signal of a proscribed lifting situation, it is determined whether the flexible links are in the relaxed state by: determining a value (C) of the load exerted on the hook; determining the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time; identifying that the flexible links are in the relaxed state if the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time is greater than or equal to at a variation threshold. 3. The method according to claim 2 , wherein, during emitting a detection signal of a proscribed lifting situation, it is identified that the flexible links are located in the relaxed state, if the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time is greater than or equal to the variation threshold during a time subperiod (SPT) of the transitional phase whose duration is greater than a verification duration (X). 4. The method according to claim 3 , wherein a lifting speed (VL) of the hook is determined, the verification duration (X) being then determined depending on the lifting speed (VL) so that the verification duration (X) decreases as the lifting speed (VL) of the hook increases. 5. The method according to claim 1 , wherein, during the detection of the initiation of the transitional phase, the values (C) of the load exerted on the hook are determined on an analysis time window of a predefined period (D), the initiation of the transitional phase being detected only if no oscillation of the values (C) of the load exerted on the hook, for the analysis time window, is detected. 6. The method of claim 5 , wherein, during detecting the initiation of the transitional phase: an average (M), for the analysis time window, of the values (C) of the load exerted on the hook ( 8 ) is determined; and at the end of a waiting period after the analysis time window, the value of the load exerted on the hook is determined; wherein the initiation of the transitional phase is detected, during the detecting the initiation of the transitional phase, only if the difference between the value (C) of the load exerted on the hook at the end of the waiting period and the average, for the analysis time window, of the exerted load values (C), is less than or equal to an oscillation threshold. 7. The method according to claim 2 , wherein, during the detecting the initiation of the transitional phase, the initiation of the transitional phase is detected only if an initial value (Ci) of the load exerted on the hook is less than or equal to a load threshold, said initial value (Ci) being set at the moment when the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time is detected as being greater than or equal to the variation threshold (S 1 ). 8. The method according to claim 1 , wherein the emitting a detection signal of a proscribed lifting situation automatically starts a step of cutting the lifting movement of the load. 9. The method according to claim 1 , wherein said method is implemented in a tower crane. 10. A security module for securing a lifting movement of a load mechanically coupled to a hook of a lifting device by flexible links, wherein the flexible links, when the load is placed on the ground, are either in a stretched state or in a relaxed state, the security module comprising: means for detecting the initiation of a transitional phase between an initial instant when the load is placed on the ground and a final instant when the load is suspended in the air; and means for emitting a detection signal of a proscribed lifting situation, if the flexible links are, at least at one instant of the transitional phase, in the relaxed state. 11. The security module according to claim 10 , wherein the means for emitting a detection signal of a proscribed lifting situation are configured to determine whether the flexible links are in the relaxed state by: determining a value (C) of the load exerted on the hook; determining the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time; and identifying that the flexible links are in the relaxed state if the derivative (DERIV.CH) of the value (C) of the load exerted on the hook with respect to time is greater than or equal to a variation threshold (S 1 ). 12. A lifting device including a security module according to claim 10 . 13. The lifting device according to claim 12 , wherein the lifting device is a tower crane.