Assembled landscape wall
By introducing cover plates and drainage pipe structures into the modular landscape wall, the problem of poor growth caused by exposed potted plants is solved, achieving automatic watering and reducing maintenance costs, thus improving the aesthetics and practicality of the landscape wall.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING HUAZHU ARCHITECTURAL DESIGN GRP CO LTD
- Filing Date
- 2025-05-28
- Publication Date
- 2026-06-09
AI Technical Summary
Potted plants in modular landscape walls are easily exposed to heavy rain or bright sunshine, leading to poor plant growth and high maintenance costs.
A modular landscape wall was designed, which uses a cover plate and a diversion pipe structure. The cover plate covers the plant planting modules, and the diversion pipes divert rainwater and automatically water the plants through the diversion lines, thus avoiding the exposure of potted plants and reducing rainwater splashing and insufficient watering.
It optimized the growing environment for potted plants, reduced plant mortality and labor maintenance costs, and improved the aesthetics and practicality of the landscape wall.
Smart Images

Figure CN224330016U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of road administration facilities technology, and in particular to a modular landscape wall. Background Technology
[0002] Modular landscape walls are a type of landscape wall design that is modular, detachable, and movable. They create diverse landscape effects through the assembly of prefabricated components, combining practicality and flexibility. Due to their efficiency, flexibility, and sustainability, modular landscape walls have become an important choice in modern landscape design.
[0003] Currently, prefabricated landscape walls generally include a load-bearing frame, connecting components, a foundation layer, a landscape decoration layer, surface material plant modules, and additional functional structures. Prefabricated landscape walls are typically installed outdoors. After the load-bearing frame, connecting components, and plant modules are connected and installed, the potted plants in the plant modules are easily exposed to heavy rain or bright sunlight. Prolonged exposure to heavy rain and intense sunlight can easily lead to poor growth of the potted plants, requiring frequent replacement and significantly increasing the maintenance costs of road infrastructure. At the same time, when the plant modules are covered by cover structures, the potted plants may not receive enough water, sometimes requiring manual watering, which also increases the maintenance costs of road infrastructure. Utility Model Content
[0004] To address the shortcomings of existing technologies, this utility model provides a modular landscape wall to solve the problem that potted plants in plant planting modules are easily exposed to heavy rain or bright sunlight, which can easily lead to poor growth of the potted plants.
[0005] To achieve the above objectives, the basic solution of this utility model is as follows: A modular landscape wall includes several columns, several connecting rods, and several plant planting modules detachably connected to the connecting rods. The connecting rods are horizontally fixed between the columns. The wall also includes:
[0006] Cover plate, which is fixedly installed at the top of the column, can cover and shield part of the plant planting module;
[0007] Several guide tubes are provided, with their upper ends passing through and connecting to the top surface of the cover plate. The lower ends of the guide tubes are opposite to the ground. Several guide holes are provided on the side wall of the guide tubes located below the cover plate. Several guide lines are provided at the guide holes of the guide tubes. The end of the guide line away from the guide hole can contact the plant planting module.
[0008] The technical principle of this utility model is as follows: When the modular landscape wall is used, the cover plate can shield the plant planting module, preventing the potted plants in the planting module from being exposed to prolonged heavy rain or scorching sun, thus creating a better growing environment for the plants. In rainy weather, the guide pipe can divert the rainwater collected at the cover plate, allowing more rainwater to flow directly to the ground, reducing the amount of rainwater splashing onto the ground when directly diverted by the cover plate. At the same time, when rainwater flows through the guide line, the guide line can absorb some rainwater and then divert some of the rainwater into the soil of the potted plants, realizing automatic watering of the potted plants. Moreover, the guide line absorbs rainwater at a relatively slow speed, thus preventing excessive water accumulation in the potted plants, effectively reducing the mortality rate of the potted plants, and also reducing labor maintenance costs.
[0009] Furthermore, the plant cultivation module includes:
[0010] The locking assembly is detachably connected to the connecting rod.
[0011] A hoop that abuts against the outer wall of the pot of a potted plant, and the hoop is fixedly connected to the locking assembly.
[0012] With the above settings, the installation position of the locking component on the connecting rod can be adjusted according to the number of potted plants and their installation location. Then, the hoop can limit the position of the potted plants. Several plant planting modules can be arranged in rows, columns, or staggered positions so that the final potted plants are arranged in the desired way and have a corresponding aesthetic distribution.
[0013] Furthermore, the positioning components include:
[0014] The clamp has an inverted "U" shaped longitudinal section profile, and the connecting rod can be embedded in the clamp;
[0015] The locking bolt passes horizontally through one end of the clamp and abuts against the outer wall of the connecting rod. The locking bolt is threadedly connected to the clamp.
[0016] With the above setup, the clamp can be stably fastened to the connecting rod. Then, the locking bolt is tightened so that the locking bolt is pressed against the connecting rod. The locking bolt and clamp can be adapted to connecting rods of different thicknesses, and the clamp is stably fastened to the connecting rod.
[0017] Furthermore, an elastic rubber sheet that fits against the outer wall of the connecting rod is fixedly installed on the end of the locking bolt.
[0018] With the above settings, the elastic rubber sheet can fit more tightly onto the connecting rod, making the installation of the locking assembly more stable.
[0019] Furthermore, a guide groove is provided on the top surface of the cover plate, and the upper end of the guide pipe is connected to the guide groove, with the upper end of the guide pipe being coplanar with the bottom surface of the guide groove.
[0020] With the above configuration, the drainage channel on the cover plate can collect and guide some rainwater, allowing rainwater to quickly flow through the drainage pipe to the ground, further reducing the amount of rainwater splashing when the rainwater is directly guided to the ground by the cover plate; at the same time, it can prepare more rainwater for the drainage line to absorb.
[0021] Furthermore, the sides of the guide channel are sloping, and the cross-sectional profile at the upper end of the guide channel is larger than that at the lower end of the guide channel.
[0022] With the above configuration, the sloping side of the guide channel can further guide rainwater, thereby increasing the amount of rainwater collected and the flow rate.
[0023] Furthermore, the guide hole includes a first orientation hole and a second orientation hole, both of which are radially through the guide tube. The axis of the first orientation hole is perpendicular to the axis of the second orientation hole, and the first orientation hole and the second orientation hole are spaced apart along the axial direction of the guide tube.
[0024] The above settings make it easy to select the first or second orientation hole closest to the potted plant to install the guide line, based on the orientation of the first and second orientation holes, resulting in a simpler and more aesthetically pleasing final modular landscape wall. Attached Figure Description
[0025] Figure 1 This is a schematic diagram of the axial direction of an assembled landscape wall in an embodiment of this utility model.
[0026] Figure 2 for Figure 1 Enlarged view of the connection between the plant planting module and the connecting rod.
[0027] In the above-mentioned attached drawings: column 10, connecting rod 20, decorative grille 30, leisure seat 40, plant planting module 50, clamp 501, locking bolt 502, elastic rubber sheet 503, hoop ring 504, fixing rod 505, cover plate 60, guide channel 601, guide pipe 70, guide hole 701, first orientation hole 702, and second orientation hole 703. Detailed Implementation
[0028] The technical solution of this utility model will be further described below with reference to the accompanying drawings and embodiments.
[0029] This embodiment is basically as follows: Figure 1 and Figure 2As shown, this utility model embodiment proposes a modular landscape wall, including several columns 10, several connecting rods 20, several plant planting modules 50 detachably connected to the connecting rods 20, a cover plate 60, and several guide pipes 70. The connecting rods 20 are horizontally welded between the columns 10, and several connecting rods 20 are sequentially welded parallel between the columns 10 from bottom to top. Several connecting rods 20 are located between two columns 10 on the left and between two columns 10 on the right. A space for placing leisure seats 40 can be formed between the columns 10 on the left and right sides. Several decorative grilles 30 are welded on the side walls of the columns 10.
[0030] like Figure 1 As shown, the cover plate 60 is welded to the top of the column 10. The cover plate 60 can cover and shield part of the plant planting module 50. The top surface of the cover plate 60 is provided with three strip-shaped guide channels 601. The three guide channels 601 are arranged in parallel, and the two ends of the guide channels 601 are opposite to the connecting rod 20. The sides of the guide channels 601 are inclined, so that the cross-sectional profile at the upper end of the guide channel 601 is larger than the cross-sectional profile at the lower end of the guide channel 601, which facilitates the flow of rainwater into the guide channel 601. At the same time, the cover plate 60 is shaped like a downward-sloping eaves, which facilitates the rainwater to tilt outward and downward from the column 10.
[0031] like Figure 1 As shown, the upper end of the guide pipe 70 is connected to the guide groove 601, and the upper end of the guide pipe 70 is coplanar with the bottom surface of the guide groove 601. The guide pipe 70 is located outside the space where the leisure seat 40 is placed on the column 10, and the side wall of the guide pipe 70 is opposite to the side wall of the connecting rod 20. At the same time, the guide pipe 70 has several guide holes 701 on the side wall below the cover plate 60, and several guide lines (not shown) are provided at the guide holes 701 of the guide pipe 70. The guide lines are guide cotton lines, and the end of the guide line away from the guide hole 701 can contact the plant planting module 50. Figure 2 As shown, the guide hole 701 includes a first orientation hole 702 and a second orientation hole 703. Both the first orientation hole 702 and the second orientation hole 703 are radially through the guide tube 70. The axis of the first orientation hole 702 is perpendicular to the axis of the second orientation hole 703, and the first orientation hole 702 and the second orientation hole 703 are spaced apart along the axial direction of the guide tube 70.
[0032] like Figure 1 and Figure 2As shown, the plant planting module 50 includes a locking assembly and a hoop 504 that abuts against the outer wall of the pot. The locking assembly includes a clamp 501, a locking bolt 502, and an elastic rubber sheet 503. The longitudinal section profile of the clamp 501 is an inverted "U" shape. The connecting rod 20 can be embedded in the clamp 501. The locking bolt 502 passes horizontally through one end of the clamp 501 and can be opposite to the outer wall of the connecting rod 20. The locking bolt 502 is threadedly connected to the clamp 501. The elastic rubber sheet 503 is fixedly installed on the end of the locking bolt 502 and can fit against the outer wall of the connecting rod 20. A fixing rod 505 is integrally formed on the clamp 501. The fixing rod 505 is horizontally set. The hoop 504 is welded to the end of the fixing rod 505. The axis of the hoop 504 is vertically set.
[0033] In this embodiment, when using the modular landscape wall, the arrangement and installation position of each plant planting module 50 on the connecting rod 20 are adjusted according to the number of potted plants and their installation positions. Several plant planting modules 50 can be arranged in rows, columns or staggered ways so that the potted plants are finally arranged in the required way and have a corresponding aesthetic distribution.
[0034] When installing a single plant planting module 50 onto the connecting rod 20, such as Figure 2 As shown, the clamp 501 is hooked onto the connecting rod 20, so that the elastic rubber sheet 503 on the end of the locking bolt 502 is opposite to the surface of the connecting rod 20. Then, the locking bolt 502 is tightened so that the end of the locking bolt 502 and the elastic rubber sheet 503 fit tightly against the connecting rod 20, so that the clamp 501 is stably installed on the connecting rod 20, and the clamp ring 504 is also locked at the same time.
[0035] Then place the potted plant into the clamp 501, and insert one end of the guide wire into the guide hole 701 of the guide tube 70. At this time, according to the orientation of the first orientation hole 702 and the second orientation hole 703 on the guide wire, select the first orientation hole 702 or the second orientation hole 703 closest to the potted plant, insert one end of the guide wire into the first orientation hole 702 or the second orientation hole 703, and insert the other end of the guide wire into the potted plant and make it contact with the soil in the potted plant to realize the installation of the guide wire.
[0036] When exposed to the intense midday sun, the cover plate 60 can provide partial shade for the potted plants, optimizing their growing environment. During heavy rain, the cover plate 60 can shield the potted plants from wind and rain. When rainwater hits the cover plate 60, the drainage channels 601 on the cover plate 60 can collect and guide some of the rainwater, allowing it to quickly drain to the ground through the drainage pipe 70. The drainage pipe 70 reduces the amount of rainwater splashed directly onto the ground by the cover plate 60. When rainwater flows through the drainage line, the drainage line can absorb some of the rainwater and then guide some of it into the soil of the potted plants, achieving automatic watering. The drainage line absorbs rainwater slowly, preventing excessive water accumulation in the pots, effectively reducing the mortality rate of the potted plants and lowering maintenance costs.
[0037] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model and are not intended to limit it. Although this utility model has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of this utility model without departing from the spirit and scope of the technical solutions of this utility model, and all such modifications or substitutions should be covered within the scope of the claims of this utility model.
Claims
1. A modular landscape wall, comprising a plurality of columns, a plurality of connecting rods, and a plurality of plant planting modules detachably connected to the connecting rods, wherein the connecting rods are horizontally fixedly installed between the columns, characterized in that, Also includes: A cover plate is fixedly installed at the top of the column, and the cover plate can cover and shield part of the plant planting module; A plurality of guide tubes are provided, the upper ends of which pass through the top surface of the cover plate and are connected to the top surface of the cover plate. The lower ends of the guide tubes are opposite to the ground. A plurality of guide holes are provided on the side wall of the guide tubes located on the lower side of the cover plate. A plurality of guide lines are provided at the guide holes of the guide tubes. The end of the guide line away from the guide hole can contact the plant planting module.
2. The modular landscape wall as described in claim 1, characterized in that, The plant cultivation module includes: A locking assembly, wherein the locking assembly is detachably connected to the connecting rod; A hoop that abuts against the outer wall of the pot of a potted plant, the hoop being fixedly connected to a locking assembly.
3. A modular landscape wall as described in claim 2, characterized in that, The card slot component includes: The clamp has an inverted "U" shaped longitudinal section profile, and the connecting rod can be embedded in the clamp; A locking bolt, which passes horizontally through one end of the clamp and abuts against the outer wall of the connecting rod, is threadedly connected to the clamp.
4. A modular landscape wall as described in claim 3, characterized in that, An elastic rubber sheet that fits against the outer wall of the connecting rod is fixedly installed on the end of the locking bolt.
5. A modular landscape wall as described in claim 1, characterized in that, The top surface of the cover plate is provided with a flow guide groove, the upper end of the flow guide pipe is connected to the flow guide groove, and the upper end of the flow guide pipe is coplanar with the bottom surface of the flow guide groove.
6. A modular landscape wall as described in claim 5, characterized in that, The side of the guide channel is inclined, and the cross-sectional profile at the upper end of the guide channel is larger than that at the lower end of the guide channel.
7. A modular landscape wall as described in any one of claims 1-6, characterized in that, The guide hole includes a first orientation hole and a second orientation hole, both of which are radially through the guide tube. The axis of the first orientation hole is perpendicular to the axis of the second orientation hole, and the first orientation hole and the second orientation hole are spaced apart along the axial direction of the guide tube.