In order to understand the relationship between the typhoon and topography this study utilize dual-doppler radar synthesis to compose three-dimensional wind and retrieval the perturbation pressure field, mechanisms of the structures change during typhoon landing. The analysis results are typhoon wind field was asymmetric during landfall. Influenced by the topography the titled maximum tangential wind over the ocean side becomes more vertically over the terrain. Low level inflow also becomes thicker over land. Near the Snow Mountains the tangential wind strong wind speed district becomes wider on the middle and high level. This phenomenon is caused by the vertical transport and subsequently induces tangential wind asymmetry. The outflow maximum appears near the mountain on the middle level. From analysis the momentum budget equation, we found the tangential wind decrease with time, is major due to the low level upwards transport of the smaller tangential wind. And the vertical transport term also is important to the low level radial inflow becomes thicker over the terrain.