In this article,we use the CAP method to invert the focal mechanism of Xinyuan-Hejing M S6. 6 earthquake on June 30,2012. Our result shows that the best double couple solution of the M S6. 6 event is 299°,68° and 164° for strike,dip and rake angles respectively. The other nodal plane is 35°,75° and 23°. The azimuth and dip angle of the P-axis are 166°and 5°,those of the T-axis are 258° and 26°. The moment magnitude is 6. 3. The estimated focal depth is about 21 km. The predominant rupture direction of this seismic sequence is NWW. The dip angles are between 60° and 90°. The rake angles are in the majority of ± 180°± 30°. The predominant strike of the azimuthal angle of the P-axis is near NS and T-axis is near EW. Preliminary analysis indicates that nodal plane I is the seismogenic fault,which is a NWW-trending,nearly upright left-lateral strike-slip fault.The displacement property,the principal compressive stress of this M S6. 6 earthquake and the P-axis preponderant orientation of this seismic sequence agree with the characteristics of the tectonic stress field of the focal area and its surroundings. In this article, we use the CAP method to invert the focal mechanism of Xinyuan-Hejing M S6. 6 earthquake on June 30, 2012. Our result shows that the best double couple solution of the M S6. 6 event is 299 °, 68 ° and 164 ° for strike, dip and rake angles respectively. The other nodal planes are 35 °, 75 ° and 23 °. The azimuth and dip angle of the P-axis are 166 ° and 5 °, those of the T-axis are 258 ° and 26 °. The moment magnitude is 6. 3. The estimated focal depth is about 21 km. The predominant rupture direction of this seismic sequence is NWW. The dip angles are between 60 ° and 90 °. The rake angles are in the majority of ± 180 ° ± 30 °. The predominant strike of the azimuthal angle of the P-axis is near NS and T-axis is near EW. Preliminary analysis indicates that nodal plane I is the seismogenic fault, which is a NWW 6, and the P-axis preponderant or ientation of this seismic sequence agree with the characteristics of the tectonic stress field of the focal area and its surroundings.