CN217352527U - Novel closed flexible honeycomb cell structure for ecological protection - Google Patents

Abstract

The utility model relates to a novel closed flexible honeycomb check room structure for ecological protection, include: a cell string formed by sewing a strip-shaped cloth piece, the cell string having a plurality of cell units connected in series; the bottom of the grid cell unit is sealed by the bottom cloth, and the bottom cloth can be raised or sunken adaptively according to the condition of slope soil. And also comprises a corresponding plug cavity. The utility model discloses the beneficial effect who reaches is: simple structure, simple preparation, high preparation efficiency, low cost, convenient installation and capability of adapting to the concave-convex change of the side slope.

Description

Novel closed flexible honeycomb cell structure for ecological protection

Technical Field

The utility model relates to a slope protection technical field especially is used for ecological protection's novel closed flexible honeycomb check room structure.

Background

The ecological restoration and the ecological greening of the side slope at the present stage are mainly realized by using soil dressing spray seeding and a series of improvement technologies (including adding various materials which reduce the weight and improve the viscosity, such as fibers, rice hulls, adhesives, concrete and the like, into a matrix, or reducing the slope gradient in a local range by using materials such as ecological bars, wood boards, geocells and the like and then carrying out a soil dressing spray seeding process).

However, the technology is mainly applied to self-stabilizing soil slopes or low and steep rocky slopes, is difficult to implement on high and steep rocky slopes, and even if the technology is implemented reluctantly, the soil layer is extremely thin and cannot meet the growth requirements of plants, or the soil layer is easy to peel off under the action of rain erosion, wind erosion and gravity, and cannot be used for a long time.

Some slope protection nets are now present. Such as simple net structures, honeycomb structures woven from steel wires, etc., but the preparation is usually very complicated and costly; and is very inconvenient when installed on a side slope.

Therefore, the inventor designs a novel flexible honeycomb cell structure according to the deposition in the slope protection field, so as to solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide simple structure, preparation simple, preparation efficient, with low costs, be convenient for the installation, can adapt to the novel closed flexible honeycomb check room structure for ecological protection of the unsmooth change of side slope.

The purpose of the utility model is realized through the following technical scheme: a novel closed flexible honeycomb cell structure for ecological protection includes:

a cell string formed by sewing a strip-shaped cloth piece, the cell string having a plurality of cell units connected in series;

the bottom of the grid cell unit is sealed by the bottom cloth, and the bottom cloth can be raised or sunken adaptively according to the condition of slope soil.

Furthermore, the grid cell string comprises two strip-shaped cloth pieces; after the two strip-shaped cloth pieces are bent and contacted oppositely, the contacted part is sewn to form a structure with a plurality of grid cell units connected in series. The preparation is very simple.

Furthermore, the grid cell units are in a prism shape; when the cell units are arranged on the side slope, the cell units form acute angles with the slope of the side slope.

Furthermore, in the cell string, the edges at the upper and lower positions of each cell unit are provided with inserting cavities A;

the inserting cavities A at the upper and lower positions of the cellular unit are connected through the N-shaped piece to form a structure for expanding the cellular unit.

Further, the N-shaped piece is provided with an extending end, and the extending end is inserted into the slope.

Furthermore, in the cell string, inserting cavities B are formed in the areas between the adjacent cell units through sewing; the top of the inserting cavity B is sealed by sewing; an inserting rod B is arranged in the inserting cavity B.

Preferably, the inserted bar B is inserted into the slope.

Furthermore, in the cell string, the area between the adjacent cell units is clamped by two inserted rods C; two inserted bars C are locked by screws.

Preferably, the inserted bar C is inserted into the slope.

The utility model has the advantages of it is following:

(1) because the side slope is uneven, for example, stones exist or pits exist, the arrangement of the insole cloth enables the grid cell units to change adaptively according to the unevenness of the side slope;

(2) the structure formed by the cell string overturns the structure formed by the traditional honeycomb cells; in the application, the cellular string is formed by bending a natural cloth piece and then sewing; the structure ensures that the preparation mode is very simple, and greatly improves the preparation efficiency; and the cost is low;

(3) although the grid cell string is formed by bending the strip-shaped cloth piece, the insertion cavity A and the N-shaped piece, or the insertion cavity B and the insertion rod B, or the insertion cavity C and the insertion rod C form a rigid support, so that the grid cell unit is well supported;

during rigid support, the corresponding cavity and the corresponding rigid part of inserting are assembled very fast and conveniently, and when the whole novel closed flexible honeycomb cell structure is placed on a slope, the rigid part is inserted into the slope through needs, so that the installation is simple and convenient.

Drawings

FIG. 1 is a schematic structural view of a strip-shaped cloth member forming a cell string;

FIG. 2 is a schematic view of the flexible honeycomb of the present invention;

fig. 3 is a perspective view of the present invention forming a flexible honeycomb;

FIG. 4 is a schematic view of a cell unit with an insertion cavity A;

FIG. 5 is a schematic structural view of the chamber A in the cellular unit and an N-shaped member;

FIG. 6 is a schematic structural view showing the fitting of the insertion cavity A in the cell unit with another N-shaped member;

fig. 7 is a schematic view of a flexible honeycomb formed using inserts A, N of the present invention;

FIG. 8 is a schematic structural view of a cell unit with a cavity B;

FIG. 9 is a schematic structural view of the cell unit with the insertion cavity B and the insertion rod B fitted;

FIG. 10 is a schematic view of a flexible honeycomb formed by using insert cavities B and insert rods B according to the present invention;

FIG. 11 is a schematic view of a cell unit using a plunger C;

in the figure: 1-strip-shaped cloth piece, 2-cell string, 3-cell unit, 4-bottom cloth, 5-inserting cavity A, 6-N-shaped piece, 601-extending end, 7-inserting cavity B, 8-inserting rod B and 9-inserting rod C.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1 to fig. 3, the novel closed flexible honeycomb cell structure for ecological protection comprises a cell string 2; the cell string 2 is formed by connecting a plurality of cell units 3 in series; and the bottom of the cellular unit 3 is sealed by the bottom fabric 4, and the bottom fabric 4 can be raised or recessed adaptively according to the condition of the slope soil.

In the scheme, each cell string 2 comprises two strip-shaped cloth pieces 1; after the two strip-shaped cloth pieces 1 are bent and contacted with each other, the contact positions are sewn to form a structure in which a plurality of cell units 3 are connected in series. After a plurality of cell strings 1 are connected into a whole, a novel closed flexible honeycomb is formed.

During the preparation process, the strip-shaped cloth piece 1 is bent and then butted in a sewing mode to form the cell string 2, so that the preparation method is extremely simple and convenient, the preparation efficiency is extremely high, and the cost is extremely low. Is very suitable for the protection of the prior side slope.

In this embodiment, the cell unit 3 has a prismatic shape. And when the cell unit 3 is arranged on the side slope, the cell unit forms an acute angle with the slope of the side slope.

Because the strip-shaped cloth piece 1 is adopted to sew to form the cell string 2, the strength and the rigidity of the cell string 2 are possibly not deficient, and therefore, the whole cell string 2 is supported by the rigid piece; and these rigid members also serve to facilitate mounting on the slope. There are the following three design options.

Optionally, a novel closed flexible honeycomb cell structure for ecological protection, as shown in fig. 4-7, is designed for the structure of the lattice unit 3.

Specifically, as shown in fig. 4 and 5, in the cell string 2, the upper and lower edges of each cell unit 3 have insertion cavities a 5. The insertion cavities a5 at the upper and lower positions of the cell unit 3 are connected by the N-shaped members 6 to form a structure for expanding the cell unit 3.

The N-shaped members 6 act as rigid members and are assembled into a novel closed flexible honeycomb as shown in figure 7.

In this embodiment, as shown in fig. 6, the N-shaped member 6 has an extended end 601 which is inserted into the slope for easy installation.

Optionally, a novel closed flexible honeycomb cell structure for ecological protection, as shown in fig. 8 to 10, is designed for the structure of the cellular unit 3.

Specifically, in the cell string 2, at the region between the adjacent cell units 3, the insert cavity B7 is formed by sewing; the top of the insert cavity B7 is sealed by sewing; an insert rod B8 is placed in the insert cavity B7. And, the insert pin B8 is inserted into the slope.

When the insert rod B8 is inserted into the slope, the two insert rods B8 naturally tighten the cell string 2.

Alternatively, a new closed flexible honeycomb cell structure for ecological protection, as shown in fig. 11, is also designed for the structure of the lattice unit 3.

Specifically, in the cell string 2, at the area between the adjacent cell units 3, it is held by two insertion rods C9; two inserted rods C9 are locked by screws. And the insert pin C9 is inserted into the slope.

That is, the two inserting rods C9 clamp some edges of the cell string 2, and a plurality of pairs of two inserting rods C9 can tighten the cell string 2.

Claims (9)

1. A novel closed flexible honeycomb cell structure for ecological protection, its characterized in that: the method comprises the following steps:

a cell string (2) formed by sewing a strip-shaped cloth (1), wherein the cell string (2) is provided with a plurality of cell units (3) connected in series;

the bottom of the grid cell unit (3) is sealed by the bottom cloth (4), and the bottom cloth (4) can be raised or sunken adaptively according to the condition of slope soil.

2. The new closed flexible honeycomb cell structure for ecological protection according to claim 1, characterized in that: the cellular string (2) comprises two strip-shaped cloth pieces (1);

the two strip-shaped cloth pieces (1) are bent and then contacted with each other, and are sewn at the contacted positions to form a structure with a plurality of grid cell units (3) connected in series.

3. The new closed flexible honeycomb cell structure for ecological protection according to claim 1, characterized in that: the grid cell unit (3) is prismatic;

when the cell units (3) are arranged on the side slope, the cell units form acute angles with the slope of the side slope.

4. A novel closed flexible honeycomb cell structure for ecological protection according to any one of claims 1 to 3, characterized in that: in the cellular string (2), the edges of the upper and lower positions of each cellular unit (3) are provided with inserting cavities A (5);

the inserting cavities A (5) at the upper and lower positions of the cell unit (3) are connected through N-shaped pieces (6) to form a structure for expanding the cell unit (3).

5. A new closed flexible honeycomb cell structure for ecological protection, according to claim 4, characterized in that: the N-shaped member (6) has an extended end (601) which is inserted into the slope.

6. A novel closed flexible honeycomb cell structure for ecological protection, according to any one of claims 1 to 3, characterized in that: in the cell string (2), an inserting cavity B (7) is formed in the area between the adjacent cell units (3) through sewing;

the top of the inserting cavity B (7) is sealed by sewing;

an insert rod B (8) is arranged in the insert cavity B (7).

7. A new closed flexible honeycomb cell structure for ecological protection, according to claim 6, characterized in that: the inserted bar B (8) is inserted into the side slope.

8. A novel closed flexible honeycomb cell structure for ecological protection according to any one of claims 1 to 3, characterized in that: in the cellular string (2), the area between adjacent cellular units (3) is clamped by two inserted rods C (9);

two inserted bars C (9) are locked by screws.

9. The new closed flexible cellular structure for ecological protection according to claim 8, characterized in that: the inserted bar C (9) is inserted into the side slope.

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