To evaluate usefulness of a functional tracheobronchial phantom for interventional procedure. The functional phantom was made as a actual size with human normal anatomy used silicone and a paper clay mold. A tracheobronchial-shape clay mold was placed inside a square box and liquid silicone was poured. After the silicone was formed, the clay was removed. We measured film density and tracheobronchial angle at the human, animal and phantom, respectively. The film density of trachea part were 0.76(${pm}0.011$) in human, 0.97(${pm}0.015$) in animal, 0.45(${pm}0.016$) in phantom. The tracheobronchial bifurcation part measured 0.51(${pm}0.006$) in human, 0.65(${pm}0.005$) in animal, 0.65(${pm}0.008$) in phantom. The right bronchus part measured 0.14(${pm}0.008$) in human, 0.59(${pm}0.014$) in animal and 0.04(${pm}0.007$) in phantom. The left bronchus were 0.54(${pm}0.004$) in human, 0.54(${pm}0.008$) in animal and 0.08(${pm}0.008$) in phantom. At the stent part were 0.54(${pm}0.004$) in human, 0.59(${pm}0.011$) in animal and 0.04(${pm}0.007$) in phantom, respectively. The tracheobronchial angle of the left bronchus site were $42.6({pm}2.07)^{circ}$ in human, $43.4({pm}2.40)^{circ}$ in animal and $35({pm}2.00)^{circ}$ in phantom, respectively. The right bronchus site were $32.8({pm}2.77)^{circ}$ in human, $34.6({pm}1.94)^{circ}$ in animal and $50.2({pm}1.30)^{circ}$ in phantom, respectively. The phantom was useful for in-vitro testing of tracheobronchial interventional procedure, since it was easy to reproduce.