Splicing type landscape flower bed for improving rural landscape construction
By using a lightweight expanded clay pellet base, an arc-shaped water-retaining shell, and a plant fiber permeable board in the design of the modular landscape flower bed, the problem of inconvenient irrigation of existing modular flower beds is solved, realizing convenient and efficient plant water supply, reducing costs and labor intensity, and improving the landscape effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGSU JINGGU ENVIRONMENT CONSTR CO LTD
- Filing Date
- 2025-08-06
- Publication Date
- 2026-06-26
AI Technical Summary
Existing modular landscape flower beds mainly rely on pre-buried pipes or manual watering for plant irrigation, which is costly, time-consuming, and labor-intensive, and not convenient enough.
The modular landscape flower bed uses a base filled with lightweight expanded clay pebbles to form a ring-shaped water storage channel. Combined with the microporous structure of the plant fiber permeable board, it achieves continuous and uniform water delivery. The connection and sealing are improved through fixed components and sealing structure to reduce water leakage. A liquid level monitor is used to monitor the water level in real time.
No additional water supply pipes are required, reducing construction costs, decreasing the frequency of manual watering, improving convenience, ensuring even water supply to plants, reducing the risk of leakage, and improving the growth efficiency of landscape plants.
Smart Images

Figure CN224402329U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of landscape flower bed technology, and in particular to a modular landscape flower bed that enhances rural landscape construction. Background Technology
[0002] Landscape flower beds are formal planting areas in garden design used to centrally display ornamental plants. They enhance the aesthetic appeal of the environment through plant combinations, shapes, and color matching, and are widely used in construction fields such as urban roads, residential communities, and parks.
[0003] Traditional landscape flower beds are usually constructed of concrete and bricks. This type of landscape flower bed has a long construction period and is fixed and cannot be moved. Therefore, modular and splicing landscape flower beds have emerged, which have the advantages of flexible installation and convenient disassembly, and can improve construction efficiency.
[0004] In addition to relying on natural rainwater, plants also need regular irrigation during their growth. Existing modular landscape flower beds mainly rely on pre-buried pipes or manual watering for irrigation. While pre-buried pipes can achieve irrigation, the entire pipe laying and debugging process significantly increases construction costs. Manual watering, on the other hand, reduces costs but is extremely time-consuming, labor-intensive, and inconvenient. Utility Model Content
[0005] The purpose of this application is to address the problem that existing modular landscape flower beds rely mainly on pre-buried pipes or manual watering for irrigating plants, which is costly, time-consuming, labor-intensive, and inconvenient. This application provides a modular landscape flower bed that can improve rural landscape construction.
[0006] To achieve the above objectives, this application specifically adopts the following technical solution:
[0007] A modular landscape flower bed for improving rural landscape construction includes a base filled with lightweight expanded clay pebbles. The base is a rubber sheet, and a bottom plate is provided at the upper end of the base. A planting frame is fixed at the upper end of the bottom plate. The planting frame is used for planting plants. A water supply structure is provided outside the planting frame. The water supply structure includes a first water-storing shell installed outside the planting frame, and a second water-storing shell installed on the side of the first water-storing shell. Both the first and second water-storing shells are arc-shaped, forming an annular water-storing channel. An installation groove is provided on the planting frame, and a plant fiber permeable board is fixed inside the installation groove. A fixing component is provided between the first and second water-storing shells.
[0008] By adopting the above technical solution, during use, the base plate is fixed to the base, and lightweight ceramic pebbles are filled inside the base. Then, the first and second water storage shells are fixed to the planting frame and secured with fixing components. Plants are then planted inside the planting frame, and water is added to the annular water storage channel. In subsequent use, under the action of the plant fiber permeable plate, the water inside the annular water storage channel is continuously and evenly transported to the plant roots through the microporous structure formed by the fine fibers. There is no need to lay additional water supply pipes or frequently water manually, thus improving convenience.
[0009] Furthermore, the fixing assembly includes fixing plates fixed at both ends of the first water storage shell, fixing bolts are threaded on the fixing plates, and fixing holes adapted to the fixing bolts are opened on the second water storage shell, and the fixing bolts slide into the fixing holes.
[0010] By adopting the above technical solution, when fixing the first water storage shell and the second water storage shell, the fixing bolt is turned so that the fixing bolt enters the fixing hole to complete the fixing.
[0011] Furthermore, positioning plates are fixed at both ends of the first water storage shell, and positioning grooves are provided at both ends of the second water storage shell, with the positioning plates sliding into the positioning grooves.
[0012] By adopting the above technical solution, when fixing the first water storage shell and the second water storage shell, the positioning plate extends into the positioning groove, thereby playing a positioning role and making it easier for the fixing bolts to enter the fixing hole.
[0013] Furthermore, a sealing sleeve is fixed inside the positioning groove, and the sealing sleeve is in contact with both the positioning plate and the first water storage shell.
[0014] By adopting the above technical solution, the sealing sleeve can increase the sealing between the first water storage shell and the second water storage shell, reducing the possibility of water leakage.
[0015] Furthermore, the lower end of the planting frame is provided with a snap-fit groove, and a sealing ring is fitted at the location where the snap-fit groove is provided. The lower ends of the first water storage shell and the second water storage shell both extend into the snap-fit groove and fit against the sealing ring.
[0016] By adopting the above technical solution, the snap-fit groove can restrict the first water storage shell and the second water storage shell, thereby improving the fixing effect between the planting frame and the first and second water storage shells. The sealing ring can improve the sealing between the planting frame and the first and second water storage shells, and reduce water leakage.
[0017] Furthermore, both the first and second water storage shells are equipped with barrier nets.
[0018] By adopting the above technical solutions, the barrier net can reduce the amount of debris such as leaves falling into the water storage channel.
[0019] Furthermore, a pre-embedded column is fixed at the lower end of the base plate. The pre-embedded column is conical in shape and extends into the interior of the base.
[0020] By adopting the above technical solution, when splicing the landscape structure, the pre-embedded columns are placed inside the base, and then lightweight expanded clay pebbles are added inside the base. The pre-embedded columns are buried inside the base by the lightweight expanded clay pebbles, which can improve the fixing effect between the planting frame and the base.
[0021] Furthermore, a liquid level monitor is fixed inside the second water storage shell.
[0022] By adopting the above technical solution, the liquid level monitor can monitor the water level inside the annular water storage channel in real time. When the water level is too low, it sends a signal to the control terminal to remind the operators to add water.
[0023] In summary, this application includes at least one of the following beneficial effects:
[0024] 1. In this application, the modular landscape flower bed constructs a water supply structure based on the capillary principle. Under the action of the plant fiber permeable board, the water inside the annular water storage channel is continuously and evenly transported to the plant roots through the microporous structure formed by the fine fibers. There is no need to lay additional water supply pipes, which reduces construction costs. It also eliminates the need for frequent manual watering, improves convenience, and is more conducive to the growth of landscape plants.
[0025] 2. In this application, a fixing component is used to achieve a positioning connection between the second water storage shell and the second water storage shell, and the fixing effect is good. At the same time, it can improve the sealing between the first water storage shell and the second water storage shell, as well as the sealing between the planting frame and the first water storage shell and the second water storage shell, reduce the possibility of water leakage, and make it more conducive to water supply to landscape plants. Attached Figure Description
[0026] Figure 1 This is a three-dimensional structural diagram of the landscape flower bed in this application;
[0027] Figure 2 This is a disassembled schematic diagram of the landscape flower bed of this application;
[0028] Figure 3 This application Figure 2 Enlarged view of point A in the middle;
[0029] Figure 4 This application Figure 2 Enlarged diagram of point B in the middle.
[0030] Explanation of reference numerals in the attached figures:
[0031] 1. Base; 11. Lightweight expanded clay aggregate; 2. Base plate; 21. Planting frame; 3. Water supply structure; 31. First water storage shell; 32. Second water storage shell; 33. Installation groove; 34. Plant fiber permeable board; 35. Fixing components; 351. Fixing plate; 352. Fixing bolt; 353. Fixing hole; 354. Positioning plate; 355. Positioning groove; 356. Sealing sleeve; 36. Snap-fit groove; 37. Sealing ring; 4. Barrier mesh; 5. Embedded column; 6. Liquid level monitor. Detailed Implementation
[0032] The following is in conjunction with the appendix Figure 1-4 This application will be described in further detail.
[0033] This application discloses a modular landscape flower bed that enhances rural landscape construction.
[0034] Reference Figure 1 A modular landscape flower bed for improving rural landscape construction includes a base 1, which is filled with lightweight expanded clay granules 11. The base 1 is a rubber sheet. A bottom plate 2 is provided on the upper end of the base 1. A planting frame 21 is fixed on the upper end of the bottom plate 2. The planting frame 21 is used for planting plants. A water supply structure 3 is provided on the outside of the planting frame 21. The water supply structure 3 includes a first water storage shell 31 installed on the outside of the planting frame 21. A second water storage shell 32 is installed on the side of the first water storage shell 31. Both the first water storage shell 31 and the second water storage shell 32 are arc-shaped and form an annular water storage channel. An installation groove 33 is opened on the planting frame 21. A plant fiber permeable plate 34 is fixed inside the installation groove 33. A fixing component 35 is provided between the first water storage shell 31 and the second water storage shell 32.
[0035] When assembling the landscape flower bed, place the base 1 in the designated position, install the base plate 2, and fill the base 1 with lightweight expanded clay pebbles 11. Then, install the first water storage shell 31 and the second water storage shell 32 on the planting frame 21 and fix them with the fixing components 35 to complete the assembly of the entire landscape flower bed. After that, plant plants inside the installation frame and add water to the first water storage shell 31 and the second water storage shell 32. During use, under the action of the plant fiber permeable plate 34, the microporous structure formed by the fine fibers continuously and evenly delivers the water inside the annular water storage channel to the plant roots. There is no need to lay additional water supply pipes, reducing construction costs. There is no need for frequent manual watering, improving convenience and being more conducive to the growth of landscape plants.
[0036] The fixing component 35 includes fixing plates 351 fixed at both ends of the first water storage shell 31, fixing bolts 352 are threaded on the fixing plates 351, and fixing holes 353 adapted to the fixing bolts 352 are opened on the second water storage shell 32, and the fixing bolts 352 slide into the fixing holes 353.
[0037] The first water storage shell 31 has a positioning plate 354 fixed at both ends, and the second water storage shell 32 has a positioning groove 355 at both ends, with the positioning plate 354 sliding into the positioning groove 355.
[0038] In addition, a sealing sleeve 356 is fixed inside the positioning groove 355, and the sealing sleeve 356 is in contact with the positioning plate 354 and the first water storage shell 31.
[0039] Furthermore, the lower end of the planting frame 21 is provided with a snap-fit groove 36, and a sealing ring 37 is fitted at the position where the snap-fit groove 36 is provided. The lower ends of the first water storage shell 31 and the second water storage shell 32 both extend into the snap-fit groove 36 and fit against the sealing ring 37.
[0040] During the process of fixing the first water storage shell 31 and the second water storage shell 32 to the planting frame 21, the positioning plate 354 and the positioning groove 355 are fixed accordingly, so that the end of the first water storage shell 31, the positioning plate 354 and the sealing sleeve 356 are in contact, and the lower ends of the first water storage shell 31 and the second water storage shell 32 enter the snap-fit groove 36 and are in contact with the sealing ring 37. Then, the fixing bolt 352 is turned so that it moves on the fixing plate 351 and enters the fixing hole 353. The fixing bolts 352 on the two fixing plates 351 are tightened in sequence to complete the fixing. The fixing component 35 realizes the positioning connection between the second water storage shell 32 and the second water storage shell 32, and the fixing effect is good. At the same time, it can improve the sealing between the first water storage shell 31 and the second water storage shell 32, as well as the sealing between the planting frame 21 and the first water storage shell 31 and the second water storage shell 32, and reduce the possibility of water leakage.
[0041] Reference Figure 2 and Figure 3 Both the first water storage shell 31 and the second water storage shell 32 have a barrier net 4 fixed inside.
[0042] Fine stones can be laid on the barrier net 4. The fine stone layer, together with the barrier net 4, can block falling leaves and other debris, reducing the amount of debris falling into the first water storage shell 31 and the second water storage shell 32. In rainy weather, the fine stone layer can filter the mud and sand in the rainwater, reducing the amount of mud and sand entering the first water storage shell 31 and the second water storage shell 32.
[0043] An embedded column 5 is fixed at the lower end of the base plate 2. The embedded column 5 is conical in shape and extends into the interior of the base 1.
[0044] Reference Figure 2 and Figure 4 When assembling the landscape flower bed, the base and planting frame 21 are placed on top of the base 1, so that the pre-embedded column 5 is located inside the base 1. Then, lightweight expanded clay granules 11 are filled. As the lightweight expanded clay granules 11 are added, the pre-embedded column 5 is buried in the cleaned expanded clay granules. The pre-embedded column 5 can increase the integrity between the planting frame 21 and the base 1 and reduce the separation of the planting frame 21 and the base 1.
[0045] A liquid level monitor 6 is fixed inside the second water storage shell 32.
[0046] Reference Figure 3 The liquid level monitor 6 can monitor the water volume inside the annular water storage channel in real time. When the water volume is low, it transmits the data to the back-end terminal to remind the operators to add water.
[0047] Working principle: When assembling this landscape flower bed, place the base 1 in the designated position, then place the base and planting frame 21 on top of the base 1, so that the pre-embedded column 5 is located inside the base 1. Next, fill with lightweight expanded clay granules 11. As the lightweight expanded clay granules 11 are added, the pre-embedded column 5 is embedded in the expanded clay granules. Then, install the first water storage shell 31 and the second water storage shell 32 on the planting frame 21. During installation, the positioning plate 354 and the positioning groove 355 are correspondingly fixed, so that the end of the first water storage shell 31, the positioning plate 354, and the sealing sleeve 356 are in contact, and the first water storage shell 31, the second water storage shell 32... The lower end of the second water storage shell 32 enters the snap-fit groove 36 and fits against the sealing ring 37. Then, the fixing bolt 352 is turned so that it moves on the fixing plate 351 and enters the fixing hole 353. The fixing bolts 352 on the two fixing plates 351 are tightened in sequence to complete the fixing. Then, plants are planted inside the installation frame and water is added to the first water storage shell 31 and the second water storage shell 32. During use, under the action of the plant fiber permeable plate 34, the water inside the annular water storage channel is continuously and evenly transported to the plant roots through the microporous structure formed by the fine fibers.
Claims
1. A modular landscape flower bed for enhancing rural landscape construction, comprising a base (1), characterized in that: The base (1) is filled with lightweight ceramic granules (11). The base (1) is a rubber plate. A bottom plate (2) is provided at the upper end of the base (1). A planting frame (21) is fixed at the upper end of the bottom plate (2). The planting frame (21) is used for planting plants. A water supply structure (3) is provided on the outside of the planting frame (21). The water supply structure (3) includes a first water storage shell (31) installed on the outside of the planting frame (21). A second water storage shell (32) is installed on the side of the first water storage shell (31). The first water storage shell (31) and the second water storage shell (32) are both arc-shaped. The first water storage shell (31) and the second water storage shell (32) form an annular water storage channel. An installation groove (33) is provided on the planting frame (21). A plant fiber permeable plate (34) is fixed inside the installation groove (33). A fixing component (35) is provided between the first water storage shell (31) and the second water storage shell (32).
2. The modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: The fixing component (35) includes fixing plates (351) fixed at both ends of the first water storage shell (31), fixing bolts (352) are threaded on the fixing plates (351), and fixing holes (353) adapted to the fixing bolts (352) are opened on the second water storage shell (32), and the fixing bolts (352) slide into the fixing holes (353).
3. The modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: The first water storage shell (31) is fixed with positioning plates (354) at both ends, and the second water storage shell (32) is provided with positioning grooves (355) at both ends. The positioning plates (354) slide into the positioning grooves (355).
4. A modular landscape flower bed for enhancing rural landscape construction according to claim 3, characterized in that: A sealing sleeve (356) is fixed inside the positioning groove (355), and the sealing sleeve (356) is in contact with the positioning plate (354) and the first water storage shell (31).
5. A modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: The lower end of the planting frame (21) is provided with a snap-fit groove (36), and a sealing ring (37) is fitted at the position where the snap-fit groove (36) is provided. The lower ends of the first water storage shell (31) and the second water storage shell (32) both extend into the snap-fit groove (36) and fit against the sealing ring (37).
6. A modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: Both the first water storage shell (31) and the second water storage shell (32) have a barrier net (4) fixed inside.
7. A modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: The bottom of the base plate (2) is fixed with a pre-embedded column (5), which is conical in shape and extends into the base (1).
8. A modular landscape flower bed for enhancing rural landscape construction according to claim 1, characterized in that: A liquid level monitor (6) is fixed inside the second water storage shell (32).