CN216475115U - Recyclable slope lamination green protection grid - Google Patents

Recyclable slope lamination green protection grid Download PDF

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Publication number
CN216475115U
CN216475115U CN202123379789.0U CN202123379789U CN216475115U CN 216475115 U CN216475115 U CN 216475115U CN 202123379789 U CN202123379789 U CN 202123379789U CN 216475115 U CN216475115 U CN 216475115U
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China
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grid
slope
component
extension
threaded hole
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CN202123379789.0U
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Inventor
刘晓飞
罗益军
张清帅
覃国强
黄震
胡文杰
莫竣羽
罗邦耀
黄红峰
王盛明
蓝天辉
潘有齐
赵兰发
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Guangxi Road Construction Engineering Group Co Ltd
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Guangxi Road Construction Engineering Group Co Ltd
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Abstract

The utility model discloses a but cyclic utilization's green protection check room of slope lamination, protection check room includes the grid, and the grid forms through the bolt fastening after splicing each other by the component that four structures are the same, arbitrary component one end extends at the middle part and forms the middle part extension section, and the other end extends in the upper portion and forms the upper portion extension section, and the upper portion extension section of one of them component and the middle part extension section of another component overlap joint each other, and four component overlap joints each other to make up into the grid. The utility model discloses the side slope of being applied to that can be fine is laminated, compensaties the not enough of modes such as stock frame roof beam in the aspect of the protection of side slope lamination, has simple structure, be convenient for the maintenance and change, reduce advantages such as cubic metre of earth and rocky ground excavation volume, construction period are short.

Description

Recyclable slope lamination green protection grid
Technical Field
The utility model relates to a side slope protection technical field specifically is a but green protection check room of cyclic utilization's slope lamination.
Background
In recent years, the national infrastructure field is greatly developed, and the center of gravity of infrastructure gradually inclines to an area with poor geological conditions, which is a challenge and a chance for improving the construction technology. The problem of loose slope lamination of a high slope is a great challenge to the traditional slope protection mode, and the conventional slope protection methods at present comprise anchor rod frame beam protection, ecological bag accumulation protection, spray anchor net combined protection, masonry stone protection and the like.
The anchor rod frame beam protection is a scheme that an anchor rod is firstly driven in to fix a frame beam, and then concrete is injected into the frame beam. During construction, the point position of the anchor rod is determined, the anchor rod is installed after drilling and hole cleaning, then the frame beam is bound by reinforcing steel bars on site, then the template is erected, concrete is poured into the frame beam, then the concrete in the steel truss is maintained, and finally planting soil is backfilled. The anchor frame beam has the following disadvantages: 1. large components and inconvenient transportation; 2. concrete needs to be poured on the slope body, so that the influence on the surrounding environment is large; 3. the curing period of the cast-in-place concrete is too long; 4. digging a large square; 5. the dead weight is too big, and the soil layer easily collapses.
Pile up ecological bag protection is one kind and sets up the grass kind in the bag body in advance, then with piling up the bag body, cover the scheme on whole slope. During construction, the slope is excavated, one row of the slope bottom is paved, the second row is paved, and the rest is done in the same way until the whole slope is paved. The pile-up ecological bag slope protection has the following disadvantages: 1. the excavation workload is large; 2. the ecological bag is easy to slide down the slope; 3. the survival rate of the seeds cannot be guaranteed.
The combined protection of spray anchor net is a scheme of using spray concrete and reinforcing bar net to seal slope surface and using anchor rod to reinforce slope surface. During construction, anchor rods with certain length and distribution are constructed in a rock body and act together with the rock body to form a complex, so that the strength of the rock body is made up for the deficiency, the anchoring effect is exerted, and the stability of the side slope is ensured. Meanwhile, the reinforcing mesh is arranged on the slope surface to spray concrete, so that the effect of restraining the slope surface from deforming is achieved, and the whole slope surface is integrated. The spray anchor net combined protection has the following defects: 1. the concrete needs to be sprayed on site, and the influence on the surrounding environment is large; 2. the application range is small, the method is not suitable for clay slope with poor diagenesis, and can not be directly used in water gushing areas, and the slope can be used without water backflow after water drainage; 3. after the anchor rod, the reinforcing mesh and the concrete are aged, the protection is insufficient.
The mortar rubble protection is a scheme that adopts masonry structure to be used for combining with the mortar so as to realize the bank protection function. During construction, the rubbles are cleaned firstly, then the mortar is stirred by a stirrer, and then the mortar is filled into the masonry joint, so that the sticking is realized. The grout rubble protection shortcomings are as follows: 1. the self weight is large, and the falling is easy; 2. the application range is limited, and the framework revetment is only suitable for general more stable soil layers and stone slopes and is not suitable for steep slopes with less stable soil; 3. the construction requirement is high, the protective performance tests the construction quality, the vertical slope from bottom to top of the rubble is built into a folded or arched framework, and the masonry can play a role only by being stable and compact.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at: aiming at the problems of large excavation volume, structure aging, environmental pollution and the like of the existing slope protection measures, a recyclable slope lamination green protection structure is provided, has the advantages of environmental protection, light structure and low manufacturing cost, and aims to make up for the defects of the prior art.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a but green protection check room of cyclic utilization's slope lamination, the protection check room includes the grid, and the grid is formed through bolt fastening after splicing each other by four components that the structure is the same, arbitrary component one end extends at the middle part and forms middle part extension section, and the other end extends at the upper portion and forms upper portion extension section, and the upper portion extension section of one of them component overlaps each other with the middle part extension section of another component, and four components overlap each other to make up into the grid.
It is further noted that the inner side of the grating is provided with a drain hole, and both sides of the drain hole are provided with fiber covers. The fiber cover is a grid-shaped polyethylene fiber cover, and can effectively prevent the water drainage holes from being blocked.
It should be further noted that the upper extension section of each component is provided with a first threaded hole, the middle extension section is provided with a second threaded hole, the first threaded hole and the second threaded hole are both internally provided with steel cylinders with threads, the first threaded hole of the upper extension section of one component is in lap joint with the second threaded hole of the middle extension section of the other component, the lap joint is fixed by bolts, and a water supply and drainage channel is arranged below the lap joint of the two threaded holes.
It needs to be further explained that an additional platform is arranged on the outer side of the grating, an anchor rod hole is formed in the additional platform, a smooth steel circular column is arranged in the anchor rod hole, and an anchor rod is inserted into the anchor rod hole for supporting.
Compared with the prior art, the beneficial effects of the utility model are that:
(1) the utility model can be communicated from top to bottom, can supply water at the upper side and flow downwards layer by layer along the drain holes of the cells, and ensures that each cell can store a certain amount of water for plant growth;
(2) the ecological bag or the foreign soil is in the grid room, the friction between the bag body and the slope and the anchor rod are used together to offset the downward sliding trend of the bag, compared with the traditional bag laying, the bag needs to be laminated layer by layer, the utility model discloses only need to tile the bag body, greatly reduce the use amount of the bag or the foreign soil;
(3) the utility model discloses it just can use to pull to the job site. The four components forming the grid chamber are consistent in completion, simple and convenient to manufacture, easy to replace when damaged, capable of preventing soil from losing due to the existence of the grid and not affecting drainage, and meanwhile, the grid chamber has a filtering and intercepting function and is more environment-friendly, so that the use value is obviously improved;
(4) after the plants grow out, the structural main body can be detached to realize cyclic utilization;
(5) the adaptability is wide, and to the dark district of soil horizon, protect with the stock, to the shallow district shotcrete of soil horizon.
Drawings
FIG. 1 is a schematic view of a component;
FIG. 2 is a front view of a component;
FIG. 3 is a top view of the member;
FIG. 4 is a left side view of the member;
FIG. 5 is a schematic view of a cell;
FIG. 6 is a front view of a cell;
FIG. 7 is a top view of a cell;
FIG. 8 is a left side view of the cells;
FIG. 9 is a schematic view of one of the lap joints between cells;
FIG. 10 is a schematic view of another type of lap joint between cells;
FIG. 11 is a schematic view of a cell in use on a slope;
in the figure: 1. a drain hole; 2. a fabric cover; 3. an upper extension section; 4. a middle extension section; 5. a first threaded hole; 6. a bolt; 7. a water supply and drainage channel; 8. a platform; 9. an anchor rod hole; 15. and a second threaded hole.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1-10, an embodiment of the present invention provides a recyclable slope layer green protection structure, which is assembled by four identical components and then assembled by bolts.
The utility model provides a green protection check room of circulated utilization's slope lamination layer, the protection check room includes the grid, and the grid is formed by bolt fastening after four components that the structure is the same each other splice, arbitrary component one end extends at the middle part and forms middle part extension 4, and the other end extends at upper portion and forms upper portion extension 3, and the upper portion extension of one of them component overlaps mutually with the middle part extension of another component, and four components overlap mutually, thereby make up into the grid.
The inner side of the grid is provided with a drain hole 1, and two sides of the drain hole 1 are provided with fiber covers 2. The fiber cover 2 is a grid-shaped polyethylene fiber cover, and can effectively prevent the water drainage holes from being blocked.
The upper extension section 3 of each component is provided with a first threaded hole 5, the middle extension section 4 is provided with a second threaded hole 15, steel cylinders with internal threads are arranged in the first threaded hole 5 and the second threaded hole 15, the first threaded hole 5 of the upper extension section of one component is in lap joint with the second threaded hole 15 of the middle extension section of the other component, the lap joint is fixed through a bolt 6, and a water supply and drainage channel 7 is arranged below the lap joint of the two threaded holes.
It needs to be further explained that an additional platform 8 is arranged on the outer side of the grating, an anchor rod hole 9 is formed in the additional platform, a smooth steel circular column is arranged in the anchor rod hole 9, and an anchor rod 10 is inserted into the anchor rod hole 9 for supporting.
The high slope is firstly graded and released. Spraying low-alkali concrete to the slope, presetting anchor rod holes in a section with deep soil layer, mainly spraying low-alkali concrete in a section with shallow soil layer, and also setting the anchor rod holes according to requirements.
Firstly, aligning different extension sections of two identical components, ensuring that a first threaded hole 5 and a second threaded hole 15 of the two components are aligned after aligning, and screwing a bolt 6 into the first threaded hole 5 and the second threaded hole 15 so as to realize the connection of the two components;
after the combined body is screwed down, the combined body is connected to other components and screwed down, then a new component is connected with the head side and the tail side of the new combined body, so that four grid chambers with mutually engaged components are formed, the four components are connected to form one grid chamber, and one grid chamber is fixed by four bolts.
The cells are now diamond or square and unstable, and therefore require anchors to achieve stability.
After anchor rod holes are pre-drilled on the slope surface and hole cleaning is completed, the connected grid chambers are placed to the slope bottom, then anchor rods 10 are inserted into the anchor rod holes 9 and are inserted into the slope body to a certain depth to fix the grid chambers, in the embodiment of the application, three anchor rod holes are formed in each side, and 12 anchor rods are needed in total. Then, the new grid chamber extension section 3 is combined with the grid chamber extension section 3 fixed previously, and after the combination, the new grid chamber is fixed by using an anchor rod, and finally, the slope surface is distributed in the grid chamber.
After the grid chambers are fully distributed, water supply and drainage pipes can be arranged in the reserved water supply and drainage channels 7 according to local climate, and the ecological bags are paved in the grid chambers along the slope. And injecting low-alkali concrete into the grid through a small guide pipe after the steps are finished, so that consolidation of soil around the grid is realized, then planting plants in the grid chamber, placing ecological bags or filling foreign soil in the grid chamber aiming at the section with more stones, and then planting grass.
The chamber main body can be recycled after the plants grow. Firstly, the bolts lapped between the cells are screwed out from the top of the slope, the cells on the slope are sequentially dismantled, and then the bolts bolted in the same cell are screwed out, so that the original component can be restored, and the cyclic utilization is realized.

Claims (4)

1. The recyclable slope layer green protection grid chamber is characterized by comprising a grid, wherein the grid is formed by splicing four components with the same structure and then fixing the components through bolts, one end of each component extends to form a middle extending section (4) in the middle, the other end of each component extends to form an upper extending section (3) in the upper portion, the upper extending section of one component is mutually overlapped with the middle extending section of the other component, and the four components are mutually overlapped to form the grid.
2. The recyclable palygorskite green protection cell according to claim 1, characterized in that: the inner side of the grid is provided with a drain hole (1), and both sides of the drain hole (1) are provided with fiber covers (2).
3. The recyclable palygorskite green protection cell according to claim 1, characterized in that: the upper extension section (3) of each component is provided with a first threaded hole (5), the middle extension section (4) is provided with a second threaded hole (15), steel cylinders with threads on the inner side are arranged in the first threaded hole (5) and the second threaded hole (15), the first threaded hole (5) of the upper extension section of one component is in lap joint with the second threaded hole (15) of the middle extension section of the other component, the lap joint is fixed through a bolt (6), and a water supply and drainage channel (7) is arranged below the lap joint of the two threaded holes.
4. The recyclable palygorskite green protection cell according to claim 1, characterized in that: the grating outside is equipped with additional platform (8), be equipped with anchor rod hole (9) on the additional platform, be equipped with glossy steel ring post in anchor rod hole (9), anchor rod hole (9) are used for stock (10) to strut.
CN202123379789.0U 2021-12-30 2021-12-30 Recyclable slope lamination green protection grid Active CN216475115U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202123379789.0U CN216475115U (en) 2021-12-30 2021-12-30 Recyclable slope lamination green protection grid

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202123379789.0U CN216475115U (en) 2021-12-30 2021-12-30 Recyclable slope lamination green protection grid

Publications (1)

Publication Number Publication Date
CN216475115U true CN216475115U (en) 2022-05-10

Family

ID=81429740

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202123379789.0U Active CN216475115U (en) 2021-12-30 2021-12-30 Recyclable slope lamination green protection grid

Country Status (1)

Country Link
CN (1) CN216475115U (en)

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