A driving handle (10) and delivery system used for delivering an implant, which may drive an outer tube (6) used for delivering the implant to perform variable speed movement, which is to say that the handle (10) controls the outer tube (6) to move at different speeds according actual surgical needs, thereby improving the efficiency of surgery and reducing the difficulty of surgery. The driving handle (10) specifically comprises a hand-held sleeve (1), a fixed sleeve (2), a first and second driving mechanism (3, 5) and a transmission mechanism (4); at least a part of the fixed sleeve (2) movably penetrates the hand-held sleeve (1); the first and second driving mechanisms (3, 5) and the transmission mechanism (4) may all be movably disposed on the hand-held sleeve (1); the first driving mechanism (3) is connected to the fixed sleeve (2), and is configured to directly drive the fixed sleeve (2) to move along an axis of the driving handle (10) at a first speed (V1) when receiving an external force; the second driving mechanism (5) is configured to push the transmission mechanism (4) when receiving an external force, the transmission mechanism (4) driving the first driving mechanism (3) and the fixed sleeve (2) to move synchronously at a second speed (V2) along the axis of the drive handle (10), wherein the second speed (V2) is not equal to the first speed (V1).La présente invention concerne une poignée d'entraînement (10) et un système de pose utilisé pour la pose d'un implant, qui peuvent entraîner un tube externe (6) utilisé pour poser l'implant afin d'effectuer un mouvement à vitesse variable, c'est-à-dire que la poignée (10) commande le tube externe (6) à se déplacer à différentes vitesses selon les besoins chirurgicaux réels, améliorant ainsi l'efficacité de la chirurgie et réduisant la difficulté de la chirurgie. La poignée d'entraînement (10) comprend spécifiquement un manchon tenu à la main (1), un manchon fixe (2), un premier et un second mécanisme d'entraînem
