In order to solve the problem of the difficulty of rapid and safe evacuation of people during the emergency evacuation of modern buildings from fire, and to improve the emergency response ability of people facing fires, an improved ant colony algorithm evacuation path planning model based on fire product influence conditions is constructed. Initial evacuation paths are planned by Dijkstra’s algorithm, the effect of fire products on evacuation of people is taken into account, equivalent velocity coefficients are introduced into the conventional ant colony algorithm, and initial evacuation paths are proposed by the improved ant colony algorithm. Taking the metro platform in Xi’an as an example, fire simulation was carried out by PyroSim, real-time data of the fire products of the metro platform were acquired. Matlab software was used to carry out simulation experiments comparing the improved ant colony algorithm and the ant colony algorithm, and simulation experiments of the improved ant colony algorithm under different fire periods, respectively. The research results show that the improved ant colony algorithm improves the evacuation efficiency and convergence speed, and shortens the evacuation time and path length. Dynamic planning of fire evacuation routes can be realized.