Safety device for a vehicle door handle

What is claimed is: 1. A safety device for a vehicle door handle comprising: an activation element configured to activate a latch by rotating around an activation axis from a rest position to an activation position, the activation element comprising at least one activation protuberance; and a blocking element comprising first and second blocking protuberances and being configured to rotate around a blocking axis between: a disengaged position in which the blocking element allows the activation element to rotate around the activation axis from a rest position to an activation position, a first blocking position in which the first blocking protuberance interacts with the activation protuberance so as to block the activation element in a first intermediate position disposed between the rest and activation positions of the activation element, and a second blocking position in which the second blocking protuberance interacts with the activation protuberance so as to block the activation element in a second intermediate position, distinct from the first intermediate position, disposed between the rest and activation positions of the activation element, and, wherein in case of a crash, the blocking element rotates around the blocking axis from the disengaged position to the first or the second blocking position depending on the rotation made by the activation element, and wherein the first and second blocking protuberances define a recess for receiving the activation protuberance when the said activation protuberance is blocked by the second blocking protuberance. 2. The safety device according to claim 1 , wherein the first blocking protuberance is configured for blocking the activation protuberance of the activation element at a rotation angle of the blocking element lower than the one in case of blocking the activation protuberance of the activation element by the second blocking protuberance with respect to the movement of the activation protuberance. 3. The safety device according to claim 2 , wherein the first blocking protuberance has a radial length greater than the second blocking protuberance. 4. The safety device according to claim 1 , wherein the blocking protuberances extend according to a plane substantially perpendicular to the blocking axis. 5. The safety device according to claim 1 , wherein the blocking element comprises an inertial mass configured to make the blocking element rotate, in case of a crash, from the disengaged position to the first or the second blocking positions. 6. The safety device according to claim 1 , wherein the activation axis is substantially parallel to the blocking axis. 7. A vehicle door handle comprising the safety device according to claim 1 , and a handle grip comprising a gripping part and a column projecting from the gripping part, wherein the column cooperates with the activation element to drive the activation element from the rest position to the activation position. 8. The vehicle door handle according to claim 7 , wherein the handle grip is rotationally mounted about a grip axis. 9. The vehicle door handle according to claim 8 , wherein the grip axis is substantially parallel to the activation axis. 10. The vehicle door handle according to claim 9 , wherein the grip axis is substantially parallel to the blocking axis. 11. The vehicle door handle according to claim 9 , wherein the blocking axis is substantially placed between the activation axis and the grip axis. 12. A vehicle comprising the vehicle door handle according to claim 7 . 13. A vehicle door handle comprising: a safety device comprising: an activation element configured to activate a latch by rotating around an activation axis from a rest position to an activation position, the activation element comprising at least one activation protuberance; and a blocking element comprising first and second blocking protuberances and being configured to rotate around a blocking axis between: a disengaged position in which the blocking element allows the activation element to rotate around the activation axis from a rest position to an activation position, a first blocking position in which the first blocking protuberance interacts with the activation protuberance so as to block the activation element in a first intermediate position disposed between the rest and activation positions of the activation element, and a second blocking position in which the second blocking protuberance interacts with the activation protuberance so as to block the activation element in a second intermediate position, distinct from the first intermediate position, disposed between the rest and activation positions of the activation element, and, wherein in case of a crash, the blocking element rotates around the blocking axis from the disengaged position to the first or the second blocking position depending on the rotation made by the activation element; a handle grip comprising a gripping part and a column projecting from the gripping part, wherein the column cooperates with the activation element to drive the activation element from the rest position to the activation position, wherein the handle grip is rotationally mounted about a grip axis, wherein the grip axis is substantially parallel to the activation axis, wherein the blocking axis is substantially placed between the activation axis and the grip axis.