The evolutions of lattice distortions along with the re-orientation of canted magnetic spins in the Tb₃Fe₅O₁₂ under external magnetic field μ₀H = 0.8T have been characterized by means of neutron diffraction over the temperature range 8.8K ~ 103K. Neutron data were collected from the pure polycrystalline Tb₃Fe₅O₁₂ sample at 8.8K, 65K, and 103K at zero field and at μ₀H = 0.8T. We suggest that the large magneto-dielectrric effect in Tb₃Fe₅O₁₂ originates from prominent spin-lattice coupling by external field: not from the magnetostriction produced by applying magnetic field. This spin-lattice coupling leads to the structural modifications such as, Fe-Tb bond distance, oxygen octahedron rotation, which give rises to a microscopic increase of ionic polarizability and a large magneto-dielectric effect △ε/ε in Tb₃Fe₅O₁₂.