An intelligent anastomotic device comprises a main body assembly (10), a control module, and a pressure sensing device (12). An end portion of the main body assembly (10) is provided with a supporting frame (11). The supporting frame (11) has a staple hole for accommodating a staple. The pressure sensing device (12) comprises electrically-conductive pins (1) spaced apart with a preset angle at an outer peripheral side of the supporting frame (11). The electrically-conductive pin (1) has a first end (1a) and a second end (1b). The second end (1b) is electrically connected to the control module. Resistance mediums (2) cover an end portion of the supporting frame (11) and are arranged at intervals in a region defined with a preset angle, such that the resistance mediums (2) at two ends of the region are electrically connected to respective first ends of two electrically-conductive pins (1) adjacent thereto. An insulating protection film (3) has a through hole (3a) corresponding to the staple hole, and is attached to the exterior of the resistance mediums (2). The insulating protection film (2) can transfer a force applied thereto to the resistance medium (2), and the electrically-conductive pin (1) is used to convert a resistance value of the resistance mediums (2) into a pressure value. The intelligent anastomotic device detects, by means of a pressure sensing device (12), a magnitude of a squeezing pressure in real time, thereby preventing the risk of various surgical complications.Un dispositif anastomotique intelligent comprend un ensemble corps principal (10), un module de commande et un dispositif de détection de pression (12). Une partie d'extrémité de l'ensemble corps principal (10) est pourvue d'un cadre de support (11). Le cadre de support (11) a un trou d'agrafe pour recevoir une agrafe. Le dispositif de détection de pression (12) comprend des broches électriquement conductrices (1) espacées d'un angle prédéfini au niveau d'un côté périphérique externe du ca
