The Reconfigurable Intelligence Surface (RIS) consists of a large-scale array of optoelectronic devices that can modulate the electromagnetic characteristics such as amplitude and phase of the incident electromagnetic wave to obtain a customized reflected beam and improve the wireless positioning service problem in non-line-of-sight (NLOS) environments. In this paper, we construct a NOMA positioning system with intelligent reflective surfaces, which uses multiple RISs deployed in the air to reflect the signals transmitted from the base station to the user for easy reception by the user; in addition, the RISs use pseudo-random sequences to remodulate the signals transmitted from the base station and then reflect them back to the user, so that it is easy for the user to identify the signals reflected from different RISs. Finally, the user estimates multiple signal angles of arrival (AOA) using the Multiple Signal Classification (MUSIC) algorithm to obtain the positioning coordinates. Simulation results show that the method proposed in this paper can achieve centimeter-level positioning accuracy in NLOS environment.