A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Protecting structure for big-gradient stone slope
The invention provides a protecting structure for a big-gradient stone slope. According to the protecting structure, plant-growing plates are designed into inverse V-shapes, so that rainwater can fall from two ends of each plant-growing plate conveniently, and thus the condition that plants are soaked by rainwater since water cannot be discharged from overflow holes in two sides in time when rainwater is excessive is avoided. Overflow holes are formed in the sealed ends of the outer sides of two sub-boards and used for draining excessive rainwater from wedge-shaped grooves; since the overflow holes are formed in the middle and can be used for conserving certain rainwater, and self-irrigation can be carried out through cotton slivers. Since each plant-growing component is of a trapezoid platform structure, the plant-growing plates and frames form wedge-shaped grooves, and after each plant-growing component is clamped into the corresponding wedge-shaped groove, a small wedge-shaped space is also reserved at the lower part of the corresponding plant-growing component, so that the rainwater can be stored in the space; in less rainfall seasons, since the cotton slivers are tied on water falling holes in the lower end of each grow-planting component, the rainwater stored in the lower end can be replenished to roots to plants according to a capillary principle.
Protecting structure for big-gradient stone slope
The invention provides a protecting structure for a big-gradient stone slope. According to the protecting structure, plant-growing plates are designed into inverse V-shapes, so that rainwater can fall from two ends of each plant-growing plate conveniently, and thus the condition that plants are soaked by rainwater since water cannot be discharged from overflow holes in two sides in time when rainwater is excessive is avoided. Overflow holes are formed in the sealed ends of the outer sides of two sub-boards and used for draining excessive rainwater from wedge-shaped grooves; since the overflow holes are formed in the middle and can be used for conserving certain rainwater, and self-irrigation can be carried out through cotton slivers. Since each plant-growing component is of a trapezoid platform structure, the plant-growing plates and frames form wedge-shaped grooves, and after each plant-growing component is clamped into the corresponding wedge-shaped groove, a small wedge-shaped space is also reserved at the lower part of the corresponding plant-growing component, so that the rainwater can be stored in the space; in less rainfall seasons, since the cotton slivers are tied on water falling holes in the lower end of each grow-planting component, the rainwater stored in the lower end can be replenished to roots to plants according to a capillary principle.
Protecting structure for big-gradient stone slope
WU HUI (author) / CHAO JIANQIANG (author) / LAI SHENGMENG (author) / LI HUAIGUO (author) / YANG TANGCHAO (author) / CHEN LIANG (author) / KONG JUN (author) / ZHENG QIANG (author)
2015-04-29
Patent
Electronic Resource
English