In case fire happens in a high building or an overpopulated area, it can be badly damaged. The descending life line can be used at this circumstance. So, the structural analyses in this study were carried on three kinds of descending life line models due to configuration by referring the descending life lines soled at the open market. As the analysis result, the maximum deformation of the basic descending life line model is 0.825mm. That of the descending life line model reinforced with one axle is shown as 0.0565mm. That of the descending life line model reinforced with three axles is shown to become 0.0118 mm. In case of maximum equivalent stress, the value is 57.929MPa at the basic descending life line model. The value is shown as 20.5MPa at the descending life line model reinforced with one axle. The value is also shown as 10.06MPa at the descending life line model reinforced with three axles. In case of fatigue life, the value of maximum fatigue life is shown as 2×107Cycle equally at all the descending life line models. But the value is 4.047Cycle at the basic descending life line model in case of minimum fatigue life. The value is shown as 56.59Cycle at the descending life line model reinforced with one axle. The value is also shown as 448.01Cycle at the descending life line model reinforced with three axles. This paper aimed to devote the safe design of the descending life line by studying deformation, stress and fatigue life of each descending life line model through these analysis results.