In order to eliminate the adverse effects of icing on the surface of mechanical devices such as power transmission cables and wind turbine blades due to low temperature, nano-silica (n-SiO₂) and micron-silica (m-SiO₂) modified by silane coupling agent were blended with a mass ratio of 5:1 and subsequently compounded with polyurethane (PU) to obtain n-SiO₂/m-SiO₂/PU superhydrophobic coatings. It is shown that the tight bonding of m-SiO₂ with PU avoids the cracking of the coating due to the agglomeration of n-SiO₂ and improves the stability of the coating. n-SiO₂ makes the surface of n-SiO₂/m-SiO₂/PU coating form a dense and rough structure, which increases the air-liquid contact area by trapping more air. The contact angle reached 158.10° at a low filling ratio(40 wt%), indicating that the prepared n-SiO₂/m-SiO₂/PU coating has excellent superhydrophobic properties. The superhydrophobic n-SiO₂/m-SiO₂/PU coating is very helpful in solving the low-temperature icing problem of outdoor power and wind equipment in rain and snow.