CN215168250U - Dense mesh net and protective structure - Google Patents

Abstract

The utility model discloses a dense mesh net, including square dictyosome and locating square dictyosome enclosing frame all around, in each symmetrical side of square dictyosome, one side is equipped with a plurality of along square dictyosome edge interval distribution's the fourth of the twelve earthly branches body, opposite side and is equipped with a plurality of tenon bodies that correspond with each fourth of the twelve earthly branches body position, and the four corners department of square dictyosome all is equipped with the solid fixed ring in bight, and the center of square dictyosome is equipped with the solid fixed ring in a plurality of centers. Still disclose a protective structure, including the foretell dense mesh net of polylith, each square dictyosome amalgamation connects into a monoblock protection network, and each tenon body is buckled in corresponding fourth of the twelve earthly branches body, and the monoblock protection network is laid on the surface of the soil body, and each retaining ring all wears to be equipped with the reinforcement nail, and the reinforcement nail is inserted and is located in the soil body. The dense mesh net and the protection structure are convenient to splice, can reduce the overlapping weight and can reduce the construction cost.

Description

Dense mesh net and protective structure

Technical Field

The utility model relates to a safeguard measure technical field in the building construction process especially relates to a close mesh net and protective structure.

Background

The surface cleaning of engineering construction and the earth excavation need to adopt a dense mesh net to cover the surface of an exposed soil body. Traditional dense mesh net is placed the stone in order to compress tightly the connection dictyosome in dictyosome overlap joint department, is very easily blown at the side slope area stone like this and rolls, has the potential safety hazard to adopt the stone to press that the overlap joint coincidence is more between the kneck dictyosome, the dictyosome material is extravagant serious, increases construction cost. The traditional dense mesh net covers the soil body, is influenced by wind force, is easy to damage and shift the dense mesh net covered on the soil surface, loses the effect of protecting the soil body and preventing dust, can blow the dense mesh net into the sea even at a coastal construction site, pollutes the environment, wastes labor and materials, and cannot achieve the optimal effects of covering soil, suppressing dust and protecting the environment.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome prior art not enough, provide a be convenient for the concatenation, can reduce the overlap joint coincidence volume and can reduce construction cost's dense mesh and protective structure.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a dense mesh net, includes square dictyosome and locates square dictyosome enclosing frame all around, in each symmetrical side of square dictyosome, one side is equipped with a plurality of along the square dictyosome edge interval distribution's the fourth of the twelve earthly branches body, opposite side and is equipped with a plurality of tenon bodies that correspond with each fourth of the twelve earthly branches body position, the four corners department of square dictyosome all is equipped with the solid fixed ring in bight, the center of square dictyosome is equipped with the solid fixed ring in a plurality of centers.

As a further improvement of the above technical solution:

the fixed ring in center is equipped with four, is square distribution.

The square net body is a polyethylene net body.

The corner fixing ring and the center fixing ring are both plastic rings.

The protective structure comprises a plurality of dense meshes, each square mesh is spliced into a whole protective net, each tenon is buckled into a corresponding mortise, the whole protective net is laid on the surface of a soil body, reinforcing nails penetrate through each fixing ring, and the reinforcing nails are inserted into the soil body.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses a dense mesh net, including square dictyosome and locating square dictyosome enclosing frame all around, in each symmetrical side of square dictyosome, one side is equipped with a plurality of mortise bodies, the opposite side that distribute along square dictyosome edge interval are equipped with a plurality of tenon bodies that correspond with each mortise body position, and the four corners department of square dictyosome all is equipped with the solid fixed ring in bight, and the center of square dictyosome is equipped with the solid fixed ring in a plurality of centers. When the square net bodies are spliced, one side of one square net body provided with the tenon bodies corresponds to one side of the other square net body provided with the mortise bodies, and the tenon bodies are pressed into the mortise bodies in one-to-one correspondence, so that the splicing is convenient, the lap joint overlapping weight can be reduced, and the construction cost can be reduced. And, the four corners department of square dictyosome all is equipped with the solid fixed ring in bight, and the center of square dictyosome is equipped with the solid fixed ring in a plurality of centers, is convenient for fix the square dictyosome on the face of treating the protection, makes the stability of square dictyosome stronger, is difficult to be blown the aversion by the wind.

The utility model discloses a protective structure, including the foretell dense mesh of polylith, each side shape dictyosome amalgamation connects into a monoblock protection network, and in each tenon body was buckled into corresponding fourth of the twelve earthly branches body, the monoblock protection network was laid on the surface of the soil body, all worn to be equipped with in each retaining ring and consolidates the nail, consolidates the nail and inserts and locate in the soil body. The adjacent square net bodies are buckled into the mortise body through the tenon body to form fixed connection, splicing is convenient, overlapping weight can be reduced, and construction cost can be reduced. The four corners department of square dictyosome all is equipped with the solid fixed ring in bight, and the center of square dictyosome is equipped with the solid fixed ring in a plurality of centers, all wears to be equipped with in each fixed ring and consolidates the nail, consolidates the nail and inserts and locate in the soil body, makes the stability of square dictyosome stronger, is difficult to by the displacement of blowing.

Drawings

Fig. 1 is a schematic structural view of the dense mesh net of the present invention.

Fig. 2 is a partial sectional view of the dense mesh net of the present invention.

Fig. 3 is a schematic structural diagram of the protection structure of the present invention.

Fig. 4 is a schematic structural diagram of the protection net of the protection structure of the present invention.

The reference numerals in the figures denote:

1. a square net body; 2. enclosing a frame; 3. a mortise body; 4. a tenon body; 5. corner fixing rings; 6. a central fixed ring; 7. reinforcing the nail; 8. and (4) soil body.

Detailed Description

The invention will be described in further detail with reference to the drawings and specific examples.

Fig. 1 and fig. 2 show an embodiment of the dense mesh net of the utility model, this dense mesh net includes square dictyosome 1 and locates square dictyosome 1 enclosure frame 2 all around, in each symmetrical side of square dictyosome 1, one side is equipped with a plurality of along 1 marginal interval distribution's of square dictyosome fourth of the twelve earthly branches body 3, the opposite side is equipped with a plurality of tenon bodies 4 that correspond with each fourth of the earthly branches body 3 position, the four corners department of square dictyosome 1 all is equipped with solid fixed ring of bight 5, the center of square dictyosome 1 is equipped with solid fixed ring of a plurality of centers 6. Specifically, the mortise body 3 is a mortise plate with a concave middle part, the tenon body 4 is a tenon plate with a convex middle part, and the mortise body 3 and the tenon body 4 form a snap. When the square net body 1 is spliced, one side of the square net body 1, which is provided with the tenon body 4, corresponds to one side of the other square net body 1, which is provided with the mortise body 3, and the tenon bodies 4 are pressed into the mortise bodies 3 one by one, so that the splicing is convenient, the overlapping coincidence quantity can be reduced, and the construction cost can be reduced. Moreover, the corner fixing rings 5 are arranged at the four corners of the square net body 1, the center of the square net body 1 is provided with the center fixing rings 6, the square net body 1 is convenient to fix on a surface to be protected, the stability of the square net body 1 is stronger, and the square net body is difficult to be blown by wind to shift.

In this embodiment, four central fixing rings 6 are provided and are distributed in a square shape. The fixed ring 6 in center is equipped with four, and four fixed ring 6 in center are square distribution around the central point of square dictyosome 1 to improve the fixed ring 6 in center and fix the intensity on the face of treating the protection.

In this embodiment, the square net body 1 is a polyethylene net body. The corner fixing ring 5 and the center fixing ring 6 are both plastic rings.

Fig. 3 and fig. 4 show the utility model discloses an embodiment of protective structure, this protective structure include the foretell dense mesh of polylith, and each side shape dictyosome 1 amalgamation becomes a monoblock protection network, and in each tenon body 4 buckled into corresponding fourth of the twelve earthly branches body 3, the monoblock protection network was laid on the soil body 8 on the surface, all wears to be equipped with in each retaining ring and consolidates nail 7, consolidates nail 7 and inserts and locate in the soil body 8. Form fixed connection through tenon body 4 lock mortise body 3 between the adjacent square dictyosome 1, the concatenation is convenient, can reduce the overlap joint weight of coincidence and can reduce construction cost. The four corners of the square net body 1 are provided with corner fixing rings 5, the center of the square net body 1 is provided with a plurality of center fixing rings 6, reinforcing nails 7 are arranged in each fixing ring in a penetrating manner, and each reinforcing nail 7 is inserted into a soil body 8, so that the square net body 1 is stronger in stability and difficult to shift by wind blowing.

Although the present invention has been described with reference to the preferred embodiments, it is not intended to limit the present invention. The technical solution of the present invention can be used by anyone skilled in the art to make many possible variations and modifications, or to modify equivalent embodiments, without departing from the scope of the technical solution of the present invention, using the technical content disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments by the technical entity of the present invention should fall within the protection scope of the technical solution of the present invention.

Claims (5)

1. A dense mesh net is characterized in that: including square dictyosome (1) and locate square dictyosome (1) surrounding frame (2) all around, in each symmetrical side of square dictyosome (1), one side is equipped with a plurality of along square dictyosome (1) edge interval distribution's the fourth of the twelve earthly branches body (3), the opposite side is equipped with a plurality of tenon bodies (4) that correspond with each fourth of the earthly branches body (3) position, the four corners department of square dictyosome (1) all is equipped with solid fixed ring of bight (5), the center of square dictyosome (1) is equipped with solid fixed ring of a plurality of centers (6).

2. The dense mesh network of claim 1, wherein: the number of the central fixing rings (6) is four, and the central fixing rings are distributed in a square shape.

3. The dense mesh network of claim 2, wherein: the square net body (1) is a polyethylene net body.

4. A dense mesh web according to any one of claims 1 to 3, wherein: the corner fixing ring (5) and the center fixing ring (6) are both plastic rings.

5. A protective structure, characterized in that: the dense mesh net comprises a plurality of dense mesh nets as claimed in any one of claims 1 to 4, wherein each square net body (1) is spliced into a whole protective net, each tenon body (4) is buckled into a corresponding mortise body (3), the whole protective net is laid on the surface of a soil body (8), reinforcing nails (7) penetrate through each fixing ring, and the reinforcing nails (7) are inserted into the soil body (8).

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