Based on the NCEP 1°×1°reanalysis data, the characteristics of the weather scale circulation , dynamic and water vapor transmission of the two cases of Tashkent vortex weather processes were contrasted and analyzed. The results showed that: during South Asia High center located at 70°E, the south Xinjiang Basin was in the left ahead of the 200 hPa jet export zone ,the maintenance of 500 hPa strong southwest airflow and significant easterly jet stream in the southern xinjiang basin of 700hPa maked sure that the middle and low level shear line and convergence maintained. At the same time, the water vapor in the Arabian sea transmitted by relay transmission strongly converged with the water vapor carried by the middle and lower easterly jet stream, resulting in large-scale rainstorm. The downward extension of the negative hygroscopic tongue in the upper layer and the increase of the baroclinic pressure in the lower and middle atmosphere maked convective precipitation more intense. But as the center of South Asia High maintained over 90 °E ,200hPa jet over southern Xinjiang ,the lower vortices are reduced into slots to enter the southern border. Over south Xinjiang Basin , if the easterly airflow of 700 hPa was weaker and located further west ,and high level divergence and low level convergence were weaker, it is not conducive to the development of vertical upward movement and the convergence of water vapor. As a result, it was difficult to caused precipitation, even though the influencing system was a Tashkent vortex.