An implant conveying device, comprising a pusher (20), a control component (21), a connecting wire (11) and a control wire (4). The pusher (20) is provided with a pipe cavity (6) and a lock hole (7) communicated with the pipe cavity. One end of the pusher (20) is connected to the control component (21). One end of the control wire (4) is connected to the control component (21), and the other end of the control wire (4) is driven by the control component to be movably received in the pipe cavity (6) of the pusher. One end of the connecting wire (11) is connected to the pusher (20) or to the control component (21), and the other end of the connecting wire (11) is used for penetrating through an implant (1) and entering the lock hole (7). The control wire (4) is driven by the control component (21) to pass through the connecting wire (11) in a sleeved manner to connect the implant (1) and the conveying device, or the control wire (4) is driven by the control component (21) to be disengaged from the connecting wire (11) to release the implant (1). By means of the conveying device, locking rings on instruments are removed, so that no redundant metal remains after the instrument is implanted into the human body.La présente invention concerne un dispositif de transport d'implant, comprenant un poussoir (20), un composant de commande (21), un câble de raccordement (11) et un câble de commande (4). Le poussoir (20) est doté d'une cavité de tuyau (6) et d'un trou de verrouillage (7) en communication avec la cavité de tuyau. Une extrémité du poussoir (20) est raccordée au composant de commande (21). Une extrémité du câble de commande (4) est raccordée au composant de commande (21), et l'autre extrémité du câble de commande (4) est entraînée par le composant de commande pour être reçu de manière amovible dans la cavité de tuyau (6) du poussoir. Une extrémité du câble de raccordement (11) est raccordée au poussoir (20) ou au composant de commande (21), et l'autre extrémité du câ
