CN214460516U - Danger-removing and green-recovering system for high and steep slope - Google Patents

Abstract

The utility model relates to an ecological compound green structure of steep side slope and compound green technology technical field specifically are a high steep side slope removes dangerous compound green system, including a plurality of wire nets of laying on the side slope, the adjacent position department of two adjacent wire nets is provided with can push down this adjacent two simultaneously the boundary reinforcing connection board of wire net, be provided with simultaneously on the boundary reinforcing connection board and pass insert the anchor nail in the side slope after boundary reinforcing connection board and the wire net, it is better to compound green effect.

Description

Danger-removing and green-recovering system for high and steep slope

Technical Field

The utility model relates to an ecological compound green structure of steep side slope and compound green technology technical field specifically are a high steep side slope removes dangerous compound green system.

Background

In recent years, the variety of slope greening technologies at home and abroad is various, and a most common greening method for spraying uniformly stirred mixed materials onto a slope by using a spraying machine by using a spraying and seeding technology has the advantages of wide application range, quick greening effect, high vegetation coverage and the like.

The ecological greening structure and the greening process for the steep side slope disclosed in the Chinese patent with the application number of 201510350731.3 comprise a covering net covered on the surface of the side slope, wherein ecological rods containing various materials are placed between the inner side of the covering net and the surface of the side slope; the ecological bar fixing device also comprises an anchor penetrating through the covering net and inserted on the side slope, and an anchor rod positioned below the ecological bar and used for fixing the position of the ecological bar;

the dangerous slope reinforcement and greening device and the dangerous slope reinforcement and greening method disclosed in the chinese patent with the application number of 201710979050.2 comprise: the soil improvement fiber mixture comprises a steel wire mesh, an anchor rod, foreign soil, a soil improvement fiber mixture, first vegetation seeds, second vegetation seeds and an anti-erosion fiber mixture; after the alien soil and the soil improvement fiber mixture are mixed, placing the alien soil and the soil improvement fiber mixture on the surface of the primary dangerous slope structure to form a secondary dangerous slope structure; the erosion-resistant fiber mixture is arranged on the surface of the secondary dangerous slope structure to form a dangerous slope reinforcing and greening device;

the compound type greening device for repairing and greening the damaged mountain body comprises the damaged mountain body, the damaged mountain body is divided into a mountain foot platform, a mountain waist vertical face, a mountain top vertical face I and a mountain top vertical face II, a first vegetable layer is planted at the mountain foot platform, a net hanging spray-seeding greening structure is arranged at the mountain waist vertical face, a vegetation bag stacking structure is arranged at the mountain top vertical face I, and a tire hanging soil fixing and slope protecting structure is arranged at the mountain top vertical face II.

In the above existing regreening structures, a steel wire mesh is required as a main regreening support carrier, but a large number of steel wire meshes are usually placed on a hill, in the prior art, a single steel wire mesh is independently installed and fixed through parts such as anchors, and in such a structure, the peripheral part of the steel wire mesh is easy to warp and shift, and the like, even if the edge is provided with the fixed anchors, the tensioning effect on the whole steel wire mesh is not enough, and under the condition that the edge is trampled by workers or washed by rainwater, the edge is easy to shift, fall, deform and the like due to the fact that the boundary has no better structural strength like a main body part, so that the sowing of subsequent vegetation and the overall regreening effect can be influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a high steep slope removes dangerous system of regreening that regreens the better effect.

The above technical purpose of the present invention can be achieved by the following technical solutions: the high and steep slope danger removing and green recovering system comprises a plurality of steel wire meshes laid on a slope, boundary reinforcing connecting plates capable of simultaneously pressing the two adjacent steel wire meshes are arranged at the adjacent positions of the two adjacent steel wire meshes, and anchors which penetrate through the boundary reinforcing connecting plates and the steel wire meshes and then are inserted into the slope are arranged on the boundary reinforcing connecting plates.

As to the utility model discloses an it is preferred, the boundary reinforcing connecting plate is the plastic slab.

As to the utility model discloses an it is preferred, the wire net is for soaking the plastic wire netting.

As right the utility model discloses an it is preferred, the adjacent position department of two adjacent wire nets is provided with a plurality of can splice together the connecting plate is strengthened at border.

As to the preferred of the present invention, the side portion of the boundary reinforcing connecting plate is formed with a clamping groove and a buckle for splicing.

As right the utility model discloses a preferred, the border is strengthened the connecting plate and is backed to offer the water guiding groove that is used for carrying out the guide to water on the surface position of wire net one side.

As right the utility model discloses a preferred, two of concatenation each other the water guiding groove on the connection board is strengthened to the border is linked together.

As right the utility model discloses a preferably, the border is strengthened the connecting plate and is faced away from still set up the branch guiding groove of introducing water to the water guiding groove on the surface position of wire net one side.

As right the utility model discloses a preferred, the boundary reinforcing connecting plate is just right the surface of wire net one side is the rough surface.

As right the utility model discloses a preferably, the boundary is strengthened the connecting plate and is kept away from it is still formed with anti-skidding line on the surface part of wire net one side.

The utility model has the advantages that: 1. the steel wire mesh can be tensioned more effectively;

2. the vegetation can grow more stably;

3. the operation is safer, and the green recovering effect is better.

Drawings

FIG. 1 is a schematic perspective view illustrating a boundary reinforcing connecting plate inserted with an anchor in an embodiment of a high steep slope danger eliminating and green restoring system;

FIG. 2 is a schematic perspective view of an embodiment of an unspliced state of a boundary reinforcing connecting plate and a steel wire mesh in the danger removing and green restoring system for a steep slope;

fig. 3 is a schematic perspective view of a spliced state of a boundary reinforcing connecting plate and a steel wire mesh in the high and steep slope danger removing and green restoring system in the embodiment.

In the drawing, the steel wire mesh is 1, a boundary reinforcing connecting plate 2, an anchor bolt, a1, a clamping groove, a2, a buckle, a0, a water guide groove, a00, a branch guide groove, a01 and anti-skid lines.

Detailed Description

The following specific embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws and protection within the scope of the present invention.

The embodiment is shown in fig. 1-3, and provides a danger removing and green restoring system for a high and steep slope, which includes a plurality of steel wire meshes 1 laid on the slope, wherein the steel wire meshes 1 are laid and installed from top to bottom and from left to right along the slope, a single steel wire mesh 1 is provided with an anchor 2 on a main body part needing to be arranged in the middle, the anchor 2 penetrates through the steel wire meshes 1 and is inserted into the slope such as a mountain, and then the head parts of the anchors 2 abut against the steel wire meshes 1 to achieve the purpose of fastening. Wherein, wire net 1 all is the preferred rectangle form that is, two adjacent wire nets 1's adjacent border need be close to the setting, boundary reinforcing connecting plate a is the back also just to the surface of wire net 1 one side all have some be used for respectively to push down the adjacent part in border of these two adjacent wire nets, design through boundary reinforcing connecting plate a, make its border position that pushes down two wire nets simultaneously in order to reach the promotion to the fixed effect in wire net border position, simultaneously better to the tensioning effect of whole wire net, guarantee overall structure's intensity and stability. Of course, the boundary reinforcing connecting plate a is used as a carrier for reinforcing and connecting the boundary of the steel wire mesh, and the boundary reinforcing connecting plate a itself is also to be fixed with the side slope, and the fixing mode can be as follows: the boundary reinforcing connecting plate a is provided with an anchor 2 which penetrates through the boundary reinforcing connecting plate a and the steel wire meshes 1 at the same time and then is inserted into the side slope, the anchor 2 can be installed and fixed, however, the anchor 2 on the boundary reinforcing connecting plate a firstly penetrates through the boundary reinforcing connecting plate a and the steel wire meshes 1 at the same time, and then two adjacent steel wire meshes pressed by the boundary reinforcing connecting plate a are provided with the anchor 2, namely, two pressing parts formed by the boundary reinforcing connecting plate a and two adjacent steel wire meshes in pressing mode are provided with the anchor 2 which penetrates through the boundary reinforcing connecting plate a of the corresponding part and the steel wire meshes 1 at the same time and then is inserted into the side slope, the edge parts of the two steel wire meshes are pressed and fixed through the boundary reinforcing connecting plate a, and the head of the anchor 2 is pressed on the boundary reinforcing connecting plate a and presses the boundary reinforcing connecting plate a, the head of the anchor 2 can directly abut against one side of the front face of the boundary reinforcing connecting plate a, that is, one side of the boundary reinforcing connecting plate a which is back to the steel wire mesh, of course, a corresponding hole for the anchor to pass through needs to be formed in the boundary reinforcing connecting plate a, or a corresponding step groove needs to be formed in the surface of the boundary reinforcing connecting plate a which is back to the steel wire mesh, so that the head of the anchor 2 abuts against the step groove of the boundary reinforcing connecting plate a after the anchor 2 is inserted into the slope, and of course, a corresponding hole needs to be formed from the bottom of the step groove to the back of the boundary reinforcing connecting plate a for the anchor 2 to pass through.

Furthermore, the boundary reinforcing connecting plate a is preferably a plastic plate, is light in weight, reliable in strength, corrosion-resistant, water-resistant, high-temperature-resistant and the like, and is suitable for the field. The steel wire mesh 1 is preferably a plastic-impregnated wire mesh, so that the steel wire mesh is prevented from being easily oxidized and rusted in the open air.

Preferably, a plurality of boundary reinforcing connecting plates a which can be spliced together are arranged at adjacent positions of two adjacent steel wire meshes 1, the steel wire meshes 1 have larger space, the edge parts of the steel wire meshes can be well tensioned and fixed by a plurality of boundary reinforcing connecting plates a, and the back shapes of the boundary reinforcing connecting plates a are preferably matched with the shapes of the corresponding side slopes due to different side slopes, so that the tensioning and fixing of the edges of the adjacent steel wire meshes are performed by a combination of a plurality of boundary reinforcing connecting plates a which have continuous back shapes and different back shapes and form a string of boundary reinforcing connecting plates a, and the effect is better. Further, a clamping groove a1 and a buckle a2 for splicing are formed on the side portion of the boundary reinforcing connecting plate a, the clamping groove a1 and the buckle a2 can be connected to the boundary reinforcing connecting plate a through an integrated forming process, and are connected in a tongue-and-groove manner just like the splicing bottom plate, the buckle a2 can adopt a pawl buckle structure, the clamping groove a1 can adopt a pawl groove structure, existing buckle clamping groove assembling structures can be adopted, of course, the clamping of the clamping groove a1 and the buckle a2 is carried out between different boundary reinforcing connecting plates a, namely the clamping groove of one boundary reinforcing connecting plate a is matched with the buckle of the other boundary reinforcing connecting plate a for use.

Further, a water guide groove a0 for guiding water is formed in a surface part of the boundary reinforcing connecting plate a on a side opposite to the steel wire mesh 1, namely a water guide groove a0 is formed in a front side of the boundary reinforcing connecting plate a, the direction of the water guide groove a0 is preferably the direction from top to bottom along the side slope, namely the water guide groove a0 preferably penetrates through the front part of the boundary reinforcing connecting plate a from top to bottom, so that rainwater and the like can flow into a water ditch arranged between hillsides on the side slope through the water guide groove a0 to prevent the large rainwater and the like from excessively scouring newly sown seeds or immature vegetation, and the scouring and the like of the steel wire mesh are also included. The design can reduce the interference of the external environment in the process of green recovery. Of course, if the turning position is required, the water guiding groove a0 may be shaped to guide the water into the gutter. However, it is important that the water guiding grooves a0 of the two boundary reinforcing connecting plates a which are spliced with each other are preferably communicated with each other so that water can be guided well.

Preferably, a surface portion of the boundary reinforcing connecting plate a on the side opposite to the steel wire mesh 1 is further provided with a branched guide groove a00 for introducing water into the water guide groove a 0. The branch guide groove a00 may be opened preferentially at the left and right sides of the water guide groove a0 extending in the up-down direction because a part of the wire mesh intermediate body may have much rainwater or the like left, and may flow into the main guide groove of the water guide groove a0 through the branch guide groove a00, and if the boundary reinforcing web a is integrally formed with the guide plate at the port of the branch guide groove a00 communicating with the outside of the boundary reinforcing web a for better guidance, the water may be better guided into the branch guide groove a 00.

Preferably, the surface of the side, opposite to the steel wire mesh 1, of the boundary reinforcing connecting plate a is a rough surface, that is, the back of the boundary reinforcing connecting plate a is a rough surface, which is mainly used for generating a certain friction force with a side slope and the steel wire mesh to form a good firm structure.

Preferably, the surface of the boundary reinforcing connecting plate a opposite to the steel wire mesh 1 is further formed with anti-skid grains a 01. That is, the front surface of the boundary reinforcing connecting plate a is provided with the antiskid lines a01, so that the safety is higher because workers do not easily slip when walking for reconnaissance or operation.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or replacements within the technical scope of the present invention, and these modifications or replacements should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The high and steep slope danger removing and green recovering system is characterized in that: the steel wire mesh reinforced concrete side slope is characterized by comprising a plurality of steel wire meshes (1) laid on the side slope, wherein the adjacent positions of two adjacent steel wire meshes (1) are provided with boundary reinforced connecting plates (a) capable of simultaneously pressing the two adjacent steel wire meshes (1), and anchor bolts (2) penetrating through the boundary reinforced connecting plates (a) and the steel wire meshes (1) and then inserted into the side slope are arranged on the boundary reinforced connecting plates (a).

2. The high steep slope risk removing and green recovering system as claimed in claim 1, wherein: the boundary reinforcing connecting plate (a) is a plastic plate.

3. The high steep slope risk removing and green recovering system as claimed in claim 1, wherein: the steel wire mesh (1) is a plastic-impregnated wire mesh.

4. The high steep slope risk removing and green recovering system as claimed in claim 1, wherein: and a plurality of boundary reinforcing connecting plates (a) which can be spliced together are arranged at the adjacent positions of the two adjacent steel wire meshes (1).

5. The high steep slope risk removing and green recovering system as claimed in claim 4, wherein: the side of the boundary reinforcing connecting plate (a) is formed with a clamping groove (a 1) and a buckle (a 2) for splicing.

6. The high steep slope risk removing and green recovering system as claimed in claim 4, wherein: and a water guide groove (a 0) for guiding water is formed in the surface of the boundary reinforcing connecting plate (a) back to one side of the steel wire mesh (1).

7. The high steep slope risk removing and green recovering system as claimed in claim 6, wherein: the water guide grooves (a 0) on the two boundary reinforcing connecting plates (a) which are spliced with each other are communicated.

8. The high steep slope risk removing and green recovering system as claimed in claim 6, wherein: and a branched guide groove (a 00) for introducing water into the water guide groove (a 0) is further formed in the surface part of one side, back to the steel wire mesh (1), of the boundary reinforcing connecting plate (a).

9. The high steep slope risk removing and green recovering system as claimed in claim 4, wherein: the surface of one side, opposite to the steel wire mesh (1), of the boundary reinforcing connecting plate (a) is a rough surface.

10. The high steep slope risk removing and green recovering system as claimed in claim 4, wherein: and anti-skid grains (a 01) are also formed on the surface part of one side of the boundary reinforcing connecting plate (a), which is back to the steel wire mesh (1).

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