On two velocity models, the HypoDD method is used to accurately locate the Tongliao M5.3 earthquake sequence, then the CAP method is used to invert the focal mechanism solutions. The parameters of the seismogenic fault plane are fitted quantitatively by the small earthquake distribution and the regional stress field. The geometry, rupture features and possible seismogenic structure of the Tongliao M5.3 earthquake are comprehensively determined. The HypoDD relocation results show that this earthquake is located at 42.95°N, 122.37°E, the whole sequence trends in NW and major aftershocks (M_L ≥ 3.0) strike in NEE direction. With the time elapsed, the aftershocks extended to the shallow crust gradually. Comparing the focal mechanism solutions and relocation results, we determine that the fitted causative fault based on NNW-trending aftershock distribution is reliable, which has the top left corner (43.00°N, 122.35°E, depth 3.3km), lower left corner (43.00°N, 122.35°E, depth 8.9km), upper right corner (42.92°N, 122.37°E, depth 3.3km), lower right corner (42.92°N, 122.37°E, depth 8.9km), extending range 3km×7km, trending in 349° (NNW), dip angle 86° (nearly vertical), and slip angle 15°. It is inferred that whole process of main shock rupture is from the source to the NW and SE sides as a shear. The rupture degree is larger in southeast where the late rupture concentrated, and did not reach the surface.