Combined energy dissipation scaffolding structure for preventing falling rock for high and steep slope in seismic region

The invention claimed is: 1. A combined energy dissipation scaffolding structure for preventing falling rock hazards for high and steep sloped areas in a seismic region, comprising a top surface impact resistance system, a top surface support system, a scaffolding body structure, a mountain-side anchorage system, and an anchoring-type steel-plate concrete composite foundation, wherein the top surface impact resistance system comprises an upper-layer steel plate, a lower-layer steel plate and an impact resistance seismic-decrease layer, wherein the upper-layer steel plate is made of a corrugated steel plate, the lower-layer steel plate is made of a flat steel plate, the impact resistance seismic-decrease layer is filled between the upper-layer steel plate and the lower-layer steel plate, and the steel plates are connected using high-strength bolts; the upper-layer steel plate is made of a corrugated steel plate with the thickness of 10 mm, wave height of 55 mm and pitch of waves of 200 mm, the lower-layer steel plate is made of a flat steel plate with the thickness of 5 mm, the impact-resistance seismic-decrease layer with the thickness of 30 cm is filled between the upper-layer steel plate and the lower-layer steel plate, wherein the density thereof is greater than 23 kg/m 3 , and an inter-row spacing of the high strength bolts is 2×2 m; the top surface support system is composed of 3D stereographic steel frame systems formed by combination in a horizontal direction, a vertical direction, a slant direction and a longitudinal direction, and the top surface support system is welded with the top surface impact resistance system and the scaffolding body structure respectively; the scaffolding body structure is composed of an I-shape steel cross beam and support steel-pipe posts at both sides, concrete is cast at a lower-middle part of each steel-pipe post to a height of at least ⅓-½ of the height of the steel-pipe post; an upper part of the mountain-side steel-pipe post of the scaffolding body structure is provided with an impact prevention steel plate, and the lower part thereof is provided with a movable steel plate; the I-shape steel cross beam is connected to the steel-pipe posts at both sides by an isolation bearing to cooperate with the impact resistance seismic-decrease layer in the top surface impact-resistance system to achieve the functions of seismic decrease and energy dissipation; the mountain-side anchorage system is composed of a feet-lock anchor rod which is perpendicular to a rock mass joint structure plane; and the feet-lock anchor rod is connected to the top surface impact-resistance system and the scaffolding body structure respectively; the anchoring-type steel-plate concrete composite foundation is manually or mechanically excavated to form a foundation pit depending on site geological and topographical conditions, and is connected to the scaffolding body structure by a fixed base, wherein the base is welded with the steel-pipe posts using a steel plate, and the steel plate is connected to a concrete foundation using an anchor rod to improve the bearing capacity of the structure. 2. The combined energy dissipation scaffolding structure of claim 1 , wherein channel steel are erected between the top surface support system and the top surface impact-resistance system along a top surface slope and are spaced at 50 cm.