Vertical lifting device and method

The invention claimed is: 1. A vertical lifting device, comprising a fixed frame fixed to a foundation, a first cavity allowing passage of a lifting rope is provided in a middle of the fixed frame, wherein a sliding frame moving horizontally on the fixed frame is arranged above the fixed frame, a second cavity allowing passage of the lifting rope is provided in a middle of the sliding frame; and at least two stepping vehicles alternately lowering or lifting weights are arranged on the sliding frame and move on the sliding frame, the stepping vehicles are spaced in preset distances, the lifting rope penetrates through the stepping vehicles in sequence, and each stepping vehicle is provided with a clamping part clamping the lifting rope and a driving mechanism driving the stepping vehicle to move on the sliding frame; wherein the at least two stepping vehicles at least comprise a first stepping vehicle and a second stepping vehicle. 2. The vertical lifting device according to claim 1 , wherein the driving mechanism comprises a hydraulic cylinder, a piston rod of each hydraulic cylinder is connected to the corresponding stepping vehicle. 3. The vertical lifting device according to claim 2 , further comprising: a control mechanism controlling the driving mechanism to alternately drive each stepping vehicle, wherein the control mechanism is electrically connected to the driving mechanism. 4. The vertical lifting device according to claim 2 , wherein a first sliding rail allowing movement of the sliding frame is arranged on the fixed frame, first pulleys matched with the first sliding rail are arranged at a bottom of the sliding frame; and a second sliding rail allowing movement of each stepping vehicle is arranged on the sliding frame, second pulleys matched with the second sliding rail are arranged at a bottom of each stepping vehicle. 5. The vertical lifting device according to claim 2 , further comprising: a winding reel winding the lifting rope, the winding reel is arranged above or outside the sliding frame, the winding reel can rotate along with the movement of the lifting rope. 6. The vertical lifting device according to claim 2 , further comprising a steering pulley, the lifting rope enters a bottom of the steering pulley from each stepping vehicle, bypasses the steering pulley, then extends out of an upper part of the steering pulley, and is connected to a weight below via the first cavity and the second cavity. 7. The vertical lifting device according to claim 2 , further comprising a braking mechanism for braking of the lifting rope, the lifting rope penetrates through the braking mechanism, and the braking mechanism being arranged between each stepping vehicle and the weight. 8. The vertical lifting device according to claim 1 , further comprising: a control mechanism controlling the driving mechanism to alternately drive each stepping vehicle, the control mechanism is electrically connected to the driving mechanism. 9. The vertical lifting device according to claim 8 , wherein the control mechanism comprises: a sensing part detecting a position of each stepping vehicle, the sensing part being arranged at a preset position facilitating detection of the position of each stepping vehicle, and the sensing part is electrically connected to the control mechanism. 10. The vertical lifting device according to claim 1 , wherein a first sliding rail allowing movement of the sliding frame is arranged on the fixed frame, first pulleys matched with the first sliding rail are arranged at a bottom of the sliding frame; and a second sliding rail allowing movement of each stepping vehicle is arranged on the sliding frame, second pulleys matched with the second sliding rail are arranged at a bottom of each stepping vehicle. 11. The vertical lifting device according to claim 1 , further comprising: a winding reel winding the lifting rope, the winding reel is arranged above or outside the sliding frame, the winding reel can rotate along with the movement of the lifting rope. 12. The vertical lifting device according to claim 1 , further comprising a steering pulley, the lifting rope enters a bottom of the steering pulley from each stepping vehicle, bypasses the steering pulley, then extends out of an upper part of the steering pulley, and is connected to a weight below via the first cavity and the second cavity. 13. The vertical lifting device according to claim 1 , further comprising a braking mechanism for braking of the lifting rope, the lifting rope penetrates through the braking mechanism, and the braking mechanism being arranged between each stepping vehicle and the weight. 14. A vertical lifting method performed by the vertical lifting device according to claim 1 , comprising: clamping, by a first stepping vehicle, a lifting rope, unclamping, by a second stepping vehicle, the lifting rope, allowing the first stepping vehicle to move in a first direction, and allowing the second stepping vehicle to move in a second direction; when the first stepping vehicle has moved to an extreme position of the first direction, clamping, by the second stepping vehicle, the lifting rope, unclamping, by the first stepping vehicle, the lifting rope, allowing the second stepping vehicle to move in the first direction, and allowing the first stepping vehicle to move in the second direction; and alternately clamping, by the first stepping vehicle and the second stepping vehicle, the lifting rope to move it in the first direction until a weight reaches a preset position. 15. The method according to claim 14 , wherein the step of clamping, by the first stepping vehicle, the lifting rope, unclamping, by the second stepping vehicle, the lifting rope, allowing the first stepping vehicle to move in the first direction and allowing the second stepping vehicle to move in the second direction comprises: instructing a clamping part of the first stepping vehicle to clamp the lifting rope and instructing a clamping part of the second stepping vehicle to unclamp the lifting rope in sequence, driving, by a first driving mechanism, the first stepping vehicle to move in the first direction, and driving, by a second driving mechanism, the second stepping vehicle to move in the second direction. 16. The method according to claim 14 , wherein the step of when the first stepping vehicle has moved to the extreme position of the first direction, clamping, by the second stepping vehicle, the lifting rope, unclamping, by the first stepping vehicle, the lifting rope, allowing the second stepping vehicle to move in the first direction and allowing the first stepping vehicle to move in the second direction comprises: instructing a sensing part to detect the positions of the stepping vehicles; when the sensing part senses that the first stepping vehicle has moved to the extreme position of the first direction, informing a control mechanism; and instructing a clamping part of the second stepping vehicle to clamp the lifting rope and instructing the clamping part of the first stepping vehicle to unclamp the lifting rope in sequence, driving, by the second driving mechanism, the second stepping vehicle to move in the first direction, and driving, by the first driving mechanism, the first stepping vehicle to move in the second direction. 17. The method according to claim 14 , wherein before the step of clamping, by the first stepping vehicle, the lifting rope, unclamping, by the second stepping vehicle, the lifting rope, allowing the first stepping vehicle to move in the first direction and allowing the second stepping vehicle to move in t