Static properties (structure and energy) of vortexlike domain walls in three-layered magnetically triaxial films with the surface of the (110) type have been investigated by the numerical minimization of the complete functional which contains the contributions of exchange, magnetically anisotropic, and magnetostatic energies. Films have been investigated whose layers had different saturation inductions. It is shown that the structure of domain walls and their stability depend substantially on the structure of the layered film. The wall energy in such films changes nonmonotonically depending to the relative thickness of the middle layer.