Disclosed is a physiological detection apparatus (100), comprising: at least one first detection electrode group (1), each first detection electrode group (1) including a first electrode (101) for coming into contact with the hand of a detected person, and a second electrode (102) for coming into contact with acupoint areas of the detected person; at least one second detection electrode group (2), each second detection electrode group (2) including a third electrode (201) and an opposite fourth electrode (202) which respectively come into contact with the periphery of acupoints of the detected person; and a micro-processor (3), wherein a human body loop is formed between the first electrode (101) and the second electrode (102) by means of a human body; a capacitor is formed between the third electrode (201) and the fourth electrode (202) by means of the skin of the detected person; the micro-processor (3) transmits a radio wave signal by means of the first electrode (101), receives, by means of the second electrode (102), the radio wave signal which is fed back, and calculates a first detection value by means of conversion; the micro-processor (3) detects a capacitance change and calculates a second detection value by means of conversion; and the micro-processor (3) analyses the first detection value and the second detection value to obtain a detection result. The physiological detection apparatus (100) detects the physiological state of a detected person in a non-intrusive manner, and thus does not bring discomfort and inconvenience to the detected person.L'invention concerne un appareil de détection physiologique (100), comprenant : au moins un premier groupe d'électrodes de détection (1), chaque premier groupe d'électrodes de détection (1) comprenant une première électrode (101) destinée à être en contact avec la main de la personne soumise à détection, et une deuxième électrode (102) destinée à être en contact avec des zones de points d'acupuncture de la personn