A soil and water conservation vegetation cover support
The modular design of the vegetation cover support system solves the problem that existing supports cannot adapt to complex terrain and repair local damage, enabling flexible assembly and low-cost maintenance, and improving the sand-fixing capacity and stability of the vegetation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-08-18
- Publication Date
- 2026-07-07
AI Technical Summary
Existing vegetation cover supports have poor overall flexibility, cannot adapt to complex terrain, cannot be disassembled and repaired after partial damage, and have high replacement costs.
The modular vegetation cover support system includes a hexagonal base, positioning plates, and slot structures. Combined with a sliding groove and nested cylinder design, it enables flexible assembly and convenient maintenance of green planting units.
It improves the adaptability of vegetation cover supports to complex terrain, reduces maintenance costs, enhances the sand-fixing effect and stability of vegetation, and provides an efficient ecological restoration solution.
Smart Images

Figure CN224460762U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of vegetation cover support technology, and in particular to a vegetation cover support for soil and water conservation. Background Technology
[0002] In the current process of ecological environment governance, the restoration of desertified land has become a crucial issue that urgently needs to be addressed. To prevent further soil erosion in desertified areas, it is usually necessary to plant vegetation with sand-fixing functions on the land surface. However, due to frequent wind and sand activity in desert regions, traditional planting methods are often insufficient to effectively fix the root systems of vegetation, causing newly planted greenery to be easily blown away by strong winds, thus seriously affecting the survival rate and greening effect of the vegetation. Therefore, it is necessary to set up dedicated vegetation cover supports on the surface of sand-fixing vegetation to form a stable structural protective layer, enhance the root fixation effect of the greenery, and improve its windbreak and sand-fixing capabilities.
[0003] Currently, most existing vegetation cover supports adopt a one-piece molded mesh structure design, relying on covering the entire surface of the sandy land to be treated and planting vegetation through the mesh gaps. Although this type of structure has a certain supporting and protective function, its overall flexibility is poor. It cannot be modularly assembled and its shape adjusted according to the undulations and irregular terrain of the sand. Furthermore, in actual use, if a part of the structure is damaged, it cannot be disassembled and repaired or replaced specifically; the entire piece must be replaced, which is not only costly but also inefficient in maintenance.
[0004] Therefore, existing technologies still have significant limitations in dealing with complex terrains and maintaining long-term use, and there is an urgent need for a more flexible, detachable, and easy-to-maintain soil and water conservation vegetation cover support system. Based on this, we propose a soil and water conservation vegetation cover support system. Utility Model Content
[0005] The purpose of this section is to outline some aspects of embodiments of the present invention and to briefly describe some preferred embodiments. Simplifications or omissions may be made in this section, as well as in the abstract and title of the present invention, to avoid obscuring the purpose of these documents, and such simplifications or omissions should not be construed as limiting the scope of the present invention.
[0006] Therefore, the purpose of this utility model is to provide a soil and water conservation vegetation cover support that can solve the problems of poor overall flexibility, inability to adapt to complex terrain, inability to disassemble and repair after partial damage, and high replacement cost of existing vegetation cover supports.
[0007] To solve the above-mentioned technical problems, this utility model provides a soil and water conservation vegetation cover support, which adopts the following technical solution: it includes a vegetation cover frame, which is composed of multiple green planting units. Each green planting unit includes a hexagonal base, a soil filling cylinder is provided in the middle of the hexagonal base, positioning plates are installed on both sides of the hexagonal base, positioning slots are respectively opened on the two sides of the hexagonal base away from the positioning plates, and a connecting cylinder slot is also opened in the middle of the hexagonal base.
[0008] Optionally, the positioning slot and the positioning plate are matched in structure, and the positioning slot and the positioning plate are engaged by a snap-fit.
[0009] Optionally, guide grooves are provided on both sides of the inner wall of the connecting cylinder groove, and an annular groove is provided at the bottom of the connecting cylinder groove. The annular groove and the guide groove are connected in a through manner.
[0010] Optionally, the bottom of the connecting cylinder groove is provided with an embedded groove, and a root system through hole is provided through the middle of the embedded groove.
[0011] Optionally, an inner nested cylinder is installed at the bottom of the soil filling cylinder, and guide sliders are respectively provided on both sides of the end of the soil filling cylinder near the inner nested cylinder. A soil filling cavity is also provided through the inner nested cylinder and the soil filling cylinder.
[0012] Optionally, the inner nested cylinder and the inner recess are in a transition fit, and the guide slider is in a sliding fit with the guide groove and the annular groove.
[0013] In summary, this utility model has at least one of the following beneficial effects:
[0014] 1. The vegetation cover support designed in this scheme is a modular structure consisting of a hexagonal base and a soil filling cylinder for planting green plants. Positioning plates and positioning slots are set on both sides of the hexagonal base, and the positioning slots and positioning plates are interlocked. This allows for flexible assembly and shape adjustment according to the topographical undulations and irregularities of desertified land, enabling the rapid construction of the entire vegetation cover framework. This flexible assembly method not only improves the adaptability of the vegetation cover support to complex terrains and ensures the stable growth of sand-fixing green plants under various terrain conditions, but also enhances the effect of windbreak and sand fixation. It solves the limitation of traditional integrated mesh supports that are difficult to match irregular terrains, thereby improving the practicality of vegetation cover supports in desertified land restoration.
[0015] 2. The vegetation cover support designed in this scheme, through the connecting cylinder groove opened in the middle of the hexagonal base, the guide grooves opened on both sides of the inner wall of the connecting cylinder groove, and the annular groove opened at the bottom that is connected to the guide groove, and the guide slider installed at the bottom of the soil filling cylinder with an inner nested cylinder, can realize the smooth rotation and disassembly between the soil filling cylinder and the hexagonal base, realizing the convenient installation and maintenance of green planting units. This design not only facilitates the quick replacement of corresponding parts when the green planting unit is damaged, reducing maintenance costs and difficulties, but also ensures that the vegetation roots can penetrate into the sandy soil through the root system holes, enhancing the sand fixation effect and stability of the vegetation, and providing a more efficient and sustainable solution for the ecological restoration of desertified land. Attached Figure Description
[0016] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0017] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0018] Figure 2 This is a schematic diagram of the hexagonal base structure of this utility model;
[0019] Figure 3 This is a cross-sectional view of the hexagonal base of this utility model;
[0020] Figure 4 This is a schematic diagram of the soil filling cylinder structure of this utility model.
[0021] Explanation of reference numerals in the attached drawings: 1. Vegetation cover framework; 2. Green plant planting unit; 3. Hexagonal base; 4. Soil filling cylinder; 5. Positioning plate; 6. Positioning slot; 7. Connecting cylinder slot; 8. Guide groove; 9. Annular groove; 10. Embedded groove; 11. Root system through hole; 12. Inner nested cylinder; 13. Guide slider; 14. Soil filling cavity. Detailed Implementation
[0022] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0023] Example: Refer to Figures 1 to 4 This utility model provides an embodiment of a soil and water conservation vegetation cover support, including a vegetation cover frame 1. The vegetation cover frame 1 is composed of multiple sets of green plant planting units 2. Each green plant planting unit 2 includes a hexagonal base 3. A soil filling cylinder 4 is provided in the middle of the hexagonal base 3. Positioning plates 5 are installed on both sides of the hexagonal base 3. Positioning slots 6 are respectively opened on the two sides of the hexagonal base 3 away from the positioning plates 5. A connecting cylinder slot 7 is also opened in the middle of the hexagonal base 3. Through the transitional fit between the inner nested cylinder 12 and the inner recess 10, and the sliding fit between the guide slider 13 and the guide groove 8 and the annular groove 9, the soil filling cylinder 4 used for sand control green planting can be rotatably locked inside the hexagonal base 3. The hexagonal base 3 can be disassembled, connected, repaired and replaced according to the usage of the soil filling cylinder 4.
[0024] The positioning slot 6 and the positioning plate 5 are structurally matched, and the positioning slot 6 and the positioning plate 5 are interlocked. Through the interlocking structure of the positioning slot 6 and the positioning plate 5, multiple hexagonal bases 3 can be easily and quickly assembled together, realizing the flexible splicing and construction of the entire vegetation cover support. This structural design allows for the rapid construction of vegetation cover skeletons 1 of appropriate size and shape according to the actual terrain and area requirements of desertified land, greatly improving the adaptability and assembly efficiency of the support. At the same time, it can also realize efficient maintenance and repair of the support, reducing maintenance costs and difficulties. Guide grooves 8 are opened on both sides of the inner wall of the connecting cylinder groove 7, and the bottom of the connecting cylinder groove 7 is opened. The hexagonal base 3 has an annular groove 9, which is connected to the guide groove 8. The guide groove 8 and the annular groove 9 are connected through the inner wall of the connecting groove 7, allowing the soil filling cylinder 4 for planting sand-fixing vegetation to be rotated and snapped into the interior of the hexagonal base 3. The bottom of the connecting groove 7 has an embedded groove 10, and a root through hole 11 is opened through the middle of the embedded groove 10. The root through hole 11 opened through the middle of the embedded groove 10 provides a channel for the vegetation roots to extend downward, allowing the vegetation roots to pass through the soil filling cylinder 4 and penetrate into the sandy soil, achieving a close combination between the vegetation roots and the sandy soil, and enhancing the sand-fixing effect and stability of the vegetation.
[0025] The bottom of the soil filling cylinder 4 is equipped with an inner nesting cylinder 12. Guide sliders 13 are respectively provided on both sides of the end of the soil filling cylinder 4 near the inner nesting cylinder 12. A soil filling cavity 14 is also provided through the inner nesting cylinder 12 and the soil filling cylinder 4. The guide sliders 13 installed on both sides of the end of the soil filling cylinder 4 are used for the disassembly and assembly connection between the soil filling cylinder 4 and the hexagonal base 3. The inner nesting cylinder 12 and the embedded groove 10 are in transition fit, and the guide sliders 13 are in sliding fit with the guide groove 8 and the annular groove 9. Through the structural design of the transition fit between the inner nesting cylinder 12 and the embedded groove 10, and the sliding fit between the guide sliders 13 and the guide groove 8 and the annular groove 9, the soil filling cylinder 4 used for sand control and greening can be rotated and snapped into the inside of the hexagonal base 3. The hexagonal base 3 can also be disassembled, connected, repaired and replaced according to the usage of the soil filling cylinder 4.
[0026] Working principle: The vegetation cover support designed in this scheme is mainly composed of multiple green planting units 2. The green planting unit 2 includes a hexagonal base 3 and a soil filling cylinder 4. The hexagonal base 3 is connected by a guide groove 8 and an annular groove 9 through the inner wall of the connecting cylinder groove 7, and an inner nested cylinder 12 and a guide slider 13 installed at the bottom of the soil filling cylinder 4. Since the inner nested cylinder 12 and the inner groove 10 are in transition fit, and the guide slider 13 is in sliding fit with the guide groove 8 and the annular groove 9, the soil filling cylinder 4 used for sand control green planting can be rotated and snapped into the inside of the hexagonal base 3. This design allows the soil filling cylinder 4 to be stably installed on the hexagonal base 3, while being easy to disassemble and replace, providing a stable growth environment for the vegetation.
[0027] The vegetation cover support designed in this scheme uses positioning plates 5 and positioning slots 6 installed on both sides of a hexagonal base 3. Because the positioning slots 6 and positioning plates 5 are structurally compatible and interlocking, the hexagonal base 3, which contains soil filling cylinders 4, can be assembled together. In this way, the vegetation cover support can be flexibly spliced into different shapes and sizes according to the undulations and complexity of the actual terrain to adapt to the irregular surface of desertified land. When in use, by planting vegetation in the soil filling cylinders 4, the roots can penetrate deep into the sand through the root system holes 11, thereby enhancing the vegetation's sand-fixing ability. At the same time, the entire vegetation cover support forms a stable structural protective layer, effectively preventing wind and sand from damaging the vegetation roots and improving the effect of windbreak and sand fixation.
[0028] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A soil and water conservation vegetation cover support, comprising a vegetation cover frame (1), characterized in that: The vegetation cover frame (1) is composed of multiple green plant planting units (2). Each green plant planting unit (2) includes a hexagonal base (3). A soil filling cylinder (4) is provided in the middle of the hexagonal base (3). Positioning plates (5) are installed on both sides of the hexagonal base (3). Positioning slots (6) are respectively opened on the two sides of the hexagonal base (3) away from the positioning plates (5). A connecting cylinder slot (7) is also opened in the middle of the hexagonal base (3).
2. The soil and water conservation vegetation cover support according to claim 1, characterized in that: The positioning slot (6) and the positioning plate (5) are structurally matched, and the positioning slot (6) and the positioning plate (5) are engaged by a snap-fit.
3. The soil and water conservation vegetation cover support according to claim 2, characterized in that: The inner walls of the connecting cylinder groove (7) are provided with guide grooves (8) on both sides, and the bottom of the connecting cylinder groove (7) is provided with an annular groove (9). The annular groove (9) and the guide groove (8) are connected in a through manner.
4. The soil and water conservation vegetation cover support according to claim 3, characterized in that: The bottom of the connecting cylinder groove (7) is provided with an embedded groove (10), and the middle of the embedded groove (10) is provided with a root system through hole (11).
5. A soil and water conservation vegetation cover support according to claim 4, characterized in that: The bottom of the soil filling cylinder (4) is equipped with an inner nesting cylinder (12). Guide sliders (13) are respectively provided on both sides of the end of the soil filling cylinder (4) near the inner nesting cylinder (12). A soil filling cavity (14) is also provided between the inner nesting cylinder (12) and the soil filling cylinder (4).
6. A soil and water conservation vegetation cover support according to claim 5, characterized in that: The inner nested cylinder (12) and the inner recess (10) are in transition fit, and the guide slider (13) is in sliding fit with the guide groove (8) and the annular groove (9).