The work aims to propose a new evaluation model of prints to determine their quality effectively and accurately, with respect to the fact that the various print quality evaluation models have some limitations. The problem of equilibrium between parameters was solved in the entropy weight method. The weights of the five parameters were respectively 0.2, 0.25, 0.2, 0.17 and 0.19. In the meantime, in reference to ISO printing standards, the final print normal evaluation set was determined and five basic printing parameters were selected to calculate the cloud model. The maximum membership of print quality evaluation of five samples was respectively 0.7800, 0.7038, 0.7257, 0.6105 and 0.3870. The five-level grade of the prints derived was good, qualified, medium, good and good, used to measure the print quality. The cloud model weighted in the entropy weight method takes full consideration of the unity of subjectivity and objectivity. The print quality ranking evaluated by such model is more objective and effective. The consistency with the conclusions made based on topsis indicates the effectiveness and accuracy of the model. Meanwhile, the cloud model provides the corresponding theoretical guidance for the printing operators by making use of and analyzing the printability of printing machinery.