Spiral suspension bridge effectively solves the problem of landing on steep mountain trails, and has a novel and beautiful structure. Longitudinal calculation of spiral suspension bridge can be understood as the establishment of beam elements for analysis of curved bridges with larger curvature. In order to have a better pedestrian space and line of sight for the structure, the method of connecting the boom and the inner side of the main girder is adopted, which causes the main girder to generate lateral torque under the action of the crowd load, and there is a tendency of overturning, which cannot be ignored in the lateral analysis. This structure is helical, which is different from conventional straight beams with end restraints that produce torsional shear stress under the action of torque. Under the uniform crowd load, the torsional deformation of the main girder is the same at all positions, and the torsional shear stress is not obvious, which shows the problem of the transverse bending of the main girder, which is closely related to the lateral rigidity. Furthermore, a three-dimensional plate unit model with different numbers of transverse partitions is established for analysis and calculation to determine a reasonable number of transverse partitions and provide references for similar projects.