CN-224213332-U - Plant fiber cage net slope protection system

CN224213332UCN 224213332 UCN224213332 UCN 224213332UCN-224213332-U

Abstract

The utility model relates to a plant fiber cage net slope protection system, which comprises a top net and a bottom net, wherein a vertical net structure is arranged between the top net and the bottom net, the top net, the bottom net and the vertical net structure form at least one cage grid chamber, the top net, the bottom net and the vertical net structure are all plant fiber nets, and the mesh aperture of the vertical net structure is smaller than that of the top net and the bottom net. According to the plant fiber cage slope protection system, plant fibers and natural ecological materials are comprehensively utilized, a continuous integral three-dimensional cage net, a combined plant community, plant growth enhancement and water retention structure is combined with an anchoring mode of plant root systems, so that slope stabilization, water and soil loss prevention are realized, a proper environment is provided for plant growth, multiple targets of ecological restoration and slope protection and slope utilization are achieved, and intelligent monitoring and management are realized.

Inventors

QIAO HE

Assignees

坡美科技(海南)有限公司

Dates

Publication Date: 20260508
Application Date: 20250529

Claims (9)

1. The plant fiber cage net slope protection system is characterized by comprising a top net and a bottom net, wherein a vertical net structure is arranged between the top net and the bottom net, the top net, the bottom net and the vertical net structure form at least one cage grid chamber, the top net, the bottom net and the vertical net structure are all plant fiber nets, and the mesh aperture of the vertical net structure is smaller than that of the top net and the bottom net.
2. The plant fiber cage net slope protection system of claim 1, wherein the mesh apertures of the top net and the bottom net are both larger than 20mm, and the mesh aperture of the vertical net structure is smaller than 15mm.
3. The plant fiber cage net slope protection system of claim 1, wherein the top net and the vertical net structure are integrally formed through braiding, or the connection part of the top net and the vertical net structure is fixedly connected through binding, stitching, bonding and clamping.
4. The plant fiber cage net slope protection system of claim 1, wherein the bottom net and the vertical net structure are integrally formed through braiding, or the connection part of the bottom net and the vertical net structure is fixedly connected through binding, stitching, bonding and clamping.
5. The plant fiber cage net slope protection system of claim 1, wherein the top net, the bottom net or the vertical net structure is provided with a seed layer.
6. The plant fiber cage net slope protection system of claim 1, wherein the top net, the bottom net or the vertical net structure is provided with a nutrition layer.
7. The plant fiber cage net slope protection system of claim 1, wherein a water locking layer is arranged on the top net, the bottom net or the vertical net structure.
8. The plant fiber cage net slope protection system of claim 1, wherein the bottom net is provided with a humidity sensor, a temperature sensor and a displacement sensor, and the humidity sensor, the temperature sensor and the displacement sensor are all connected with a wireless transmission module.
9. The plant fiber cage net slope protection system of claim 1, wherein the vertical net structure is provided with an auxiliary sleeve for sleeving the anchor bolt.

Description

Plant fiber cage net slope protection system Technical Field The utility model relates to the technical field of ecological slope protection, in particular to a plant fiber cage net slope protection system. Background Traditional slope protection mode relies on materials such as concrete, stone, plastics geotechnique check room more, and though can play certain guard action, has destroyed ecological environment, has influenced vegetation recovery and soil and water conservation. In particular, in recent years, plastic geocell materials are used in large scale in the field of ecological slope protection, and the nondegradability and water-soil environment damage caused by large amount of plastic microparticles entering soil and water bring great adverse effects to the earth ecological system. The prior art needs a natural and ecological slope protection material technical scheme which can stabilize slope, promote plant growth and have minimal influence on environment. Disclosure of utility model The embodiment of the utility model provides a plant fiber cage net slope protection system, which realizes slope stabilization, prevents water and soil loss, provides a proper environment for plant growth, achieves multiple targets of ecological restoration and slope protection and slope use and realizes intelligent monitoring and management by comprehensively utilizing plant fibers and natural ecological materials and combining a continuous integral three-dimensional cage net, a combined plant community, a plant growth enhancement and water retention structure and combining a plant anchoring mode. In order to achieve the above object, the embodiment of the present utility model provides the following technical solutions: The plant fiber cage net slope protection system comprises a top net and a bottom net, wherein a vertical net structure is arranged between the top net and the bottom net, at least one cage net chamber is formed by enclosing the top net, the bottom net and the vertical net structure, the top net, the bottom net and the vertical net structure are all plant fiber nets, and the mesh aperture of the vertical net structure is smaller than that of the top net and the bottom net. Further, the mesh apertures of the top net and the bottom net are both larger than 20mm, and the mesh aperture of the vertical net structure is smaller than 15mm. Further, the top net and the vertical net structure are integrally formed through braiding, or the connection part of the top net and the vertical net structure is fixedly connected through binding, stitching, bonding and clamping. Further, the bottom net and the vertical net structure are integrally formed through braiding, or the connection part of the bottom net and the vertical net structure is fixedly connected through binding, stitching, bonding and clamping. Further, a seed layer is arranged on the top net, the bottom net or the vertical net structure. Further, the top net, the bottom net or the vertical net structure is provided with a nutrition layer. Further, a water locking layer is arranged on the top net, the bottom net or the vertical net structure. Further, the bottom net is provided with a humidity sensor, a temperature sensor and a displacement sensor, and the humidity sensor, the temperature sensor and the displacement sensor are all connected with the wireless transmission module. Further, an auxiliary sleeve for sleeving the anchor bolt is arranged on the vertical net structure. The embodiment of the utility model has the following advantages: 1. Ecological environment protection, namely natural environment-friendly material, supporting plant growth and ecological restoration. 2. The integrated cage grid chambers are durable and stable, so that the cage grid structures are firm and stable, the capability of restraining filler surface soil and root systems is strong, for example, the ramie fibers are corrosion-resistant, and the slope can be stabilized for a long time. 3. Promoting vegetation recovery, providing proper planting environment by attaching fertilizer, microorganism bacteria, seeds and water-retaining materials, and being beneficial to realizing slope greening for a long time. 4. The construction is simple, the construction flow is simple, the construction can be quickly laid and fixed, and the construction method is suitable for various terrain conditions. Drawings In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort. The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and descripti