A hand-held cane reset structure comprises a cane, a base, an outer sleeve, a supporting rod set, an elastic reset member and a foot base. The supporting rod set is comprised of a supporting rod, an elastic element, an inner guide block, a spring and a fixing member. Furthermore, the elastic reset member is used to prop up between the foot base and the inner guide block so as to generate an active reset effect on the cane. The base is provided with a base body having a globular guiding face. An expanded center hole is defined in the center of the globular guiding face. The base is connected with the foot base after the inner guide block, the spring, the fixing member and the elastic reset member are disposed inside the base. The inner guide block is provided with a block body having a pushing element fitted onto the top surface of the inner guide block. The center of the inner guide block is provided with a step-shaped perforation. The inner guide block is disposed inside the base so that the inner guide block is pushed onto the globular guide face on the inner side of the base through the pushing element. The outer sleeve is provided with a hollow sleeve body into which the lower end of the cane is inserted, and the bottom end thereof is provided with a perforation through which the supporting rod is inserted. In addition, it is outwardly expanded to have an arc-shaped guide groove corresponding to the globular guide face. The inner surface of the arc-shaped guide groove is connected with a pushing ring through which the outer sleeve is pushed onto the globular guide face. The end of the supporting rod is continuously inserted through the elastic member, the perforation of the outer sleeve, the center hole of the base and the step-shaped perforation of the inner guide block, and then the supporting rod is connected with the fixing member inside the base so that the outer sleeve and the inner guide block can be assembled on the base through the holding-stop formed a
