Garden landscape flower bed structure
By employing a multi-layered three-dimensional support structure and insertion hole design in the flower bed, efficient placement of potted flowers and plants is achieved, reducing personnel risks and enhancing the functionality and aesthetics of the flower bed.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG SHUNYI LANDSCAPE ENG CO LTD
- Filing Date
- 2025-05-23
- Publication Date
- 2026-06-12
AI Technical Summary
The existing flower bed structure requires people to walk back and forth when placing potted plants, which is time-consuming, labor-intensive, and poses a risk of falling.
The planter adopts a multi-layer three-dimensional support structure. The planter bed is set up with a circumferentially arranged plant bed. The three-dimensional support is equipped with a placement seat and a plug hole. The receiving slot is equipped with a partition for limiting the position of the potted plants. The plants are fixed by plug-in columns, which simplifies the placement process of the potted plants.
It improves the efficiency of placing potted plants, reduces the risk of people falling, has a more user-friendly design, and provides temporary shade and rain protection.
Smart Images

Figure CN224343887U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of flower beds, and in particular to a garden landscape flower bed structure. Background Technology
[0002] Flower beds are currently an important component of garden design and construction. They not only enhance visual appeal but also improve the functionality and aesthetics of a space through their structural layout. Within geometrically shaped planting beds, various colors of flowers are planted, utilizing the collective effect of the flowers to express patterns or create a magnificent display when in full bloom, highlighting colors or ornate designs to achieve a decorative effect.
[0003] To better showcase the decorative effect of flower beds, multi-tiered support structures are often installed within them. Potted plants are then arranged sequentially on these supports to meet various decorative needs. Since the area covered by these supports is typically large, workers must walk back and forth within the designated area to place the plants in their designated spots. However, this constant back-and-forth movement is not only time-consuming and energy-intensive, but also carries the risk of falling if a misstep occurs. Utility Model Content
[0004] This application provides a garden landscape flower bed structure that can improve the efficiency of placing potted flowers and reduce the risk of people falling while placing them.
[0005] The technical solution for a garden landscape flower bed structure provided in this application is as follows:
[0006] A garden landscape flower bed structure includes multiple circumferentially arranged planting beds. Each planting bed has a three-dimensional support frame with a placement seat on it. The bottom of each placement seat has a connecting post, and the three-dimensional support frame has corresponding connecting holes. Each connecting post is inserted and fixed into its respective connecting hole. The placement seat has a partition that divides the interior space into multiple receiving slots. Potted plants are placed in these slots in a sequential arrangement. The width of each receiving slot is adapted to the outer diameter of the potted plants, and the receiving slots are used to confine the potted plants within the placement seat.
[0007] Preferably, the bottom of the placement seat has multiple drainage holes that communicate with the receiving groove.
[0008] Preferably, the placement base has multiple layers, and the placement bases in each layer are arranged at intervals along the height direction of the three-dimensional support.
[0009] Preferably, the three-dimensional support includes multiple vertically arranged support rods and multiple horizontally arranged mounting seats; multiple stepped platforms are coaxially arranged on the support rods, and the outer diameter of the stepped platforms decreases sequentially from bottom to top; the mounting seats are sequentially inserted into the support rods from top to bottom, and the mounting seats are respectively limited and fixed on the corresponding stepped platforms; the insertion holes are provided on the mounting seats, and the placement seats are inserted and fixed on the mounting seats through insertion posts.
[0010] Preferably, the top of the support rod is coaxially provided with a threaded post, and a fastening nut is threaded to the outside of the threaded post. The mounting seat located at the top of the support rod passes through the outside of the threaded post, and the fastening nut tightens and fixes the mounting seat located at the top of the support rod to the stepped platform.
[0011] Preferably, the mounting base is provided with a pressure rod, the length of which extends towards the lower mounting base; a limiting plate is provided on the mounting base below the pressure rod, and an insertion hole is provided on the limiting plate for the bottom of the pressure rod to be inserted into the limiting plate; a pressing plate is coaxially fixed to the outside of the pressure rod, the outer diameter of the pressing plate is larger than the inner diameter of the insertion hole, and the pressing plate abuts against the upper surface of the limiting plate.
[0012] Preferably, the planting bed is fixedly provided with multiple mounting cylinders, and the bottom of the support rod is respectively inserted and fixed in its respective corresponding mounting cylinder.
[0013] Preferably, a passageway for pedestrians is formed between adjacent planting beds, and a sunshade frame is fixedly installed on the top of the passageway between adjacent mounting seats.
[0014] In summary, this application includes at least one of the following beneficial technical effects:
[0015] The placement personnel do not need to walk back and forth in the placement area to complete the placement of potted plants, which greatly improves the placement efficiency of potted plants, reduces the risk of personnel falling, and makes the placement process more time-saving and labor-saving.
[0016] Sunshades can provide temporary shade and rain protection for pedestrians in passageways, and the design is more user-friendly.
[0017] Each layer of mounting base is connected and fixed in sequence by pressure rods, which further improves the reliability of each layer of mounting base and makes each layer of mounting base more firmly installed on the support rod, preventing the mounting base from shifting on the support rod. Attached Figure Description
[0018] Figure 1 This is a schematic diagram of the overall structure of an embodiment of this application;
[0019] Figure 2 yes Figure 1 A partial structural diagram;
[0020] Figure 3 yes Figure 2 A schematic diagram of a partial structural explosion;
[0021] Figure 4 yes Figure 3 An exploded view of the partial structure behind the hidden placement base;
[0022] Figure 5 This is an exploded view of a section of the structure at the connection point of the sunshade.
[0023] Explanation of reference numerals in the attached diagram: 1. Planting bed; 2. Three-dimensional support frame; 20. Insertion hole; 220. Clearance groove; 21. Support rod; 210. Stepped platform; 22. Mounting base; 221. Limiting plate; 23. Threaded post; 24. Insertion hole; 3. Placement base; 30. Insertion post; 31. Partition; 310. Receiving groove; 32. Drainage hole; 4. Potted plant; 5. Fastening nut; 6. Pressure rod; 60. Pressing plate; 7. Mounting cylinder; 8. Passageway; 9. Sunshade frame; 90. Insertion rod; 91. Sunshade canopy; 92. Locking nut. Detailed Implementation
[0024] The present application will be further described in detail below with reference to the accompanying drawings.
[0025] This application discloses a garden landscape flower bed structure.
[0026] Reference Figure 1 , Figure 2 The garden landscape flower bed structure includes four planting beds 1 built within the planting area, arranged in a circumferentially evenly spaced ring. Each planting bed 1 contains a steel three-dimensional support frame 2, on which multiple layers of placement seats 3 are installed. The number of layers of placement seats 3 can be increased or decreased according to actual needs; this embodiment uses two layers of placement seats 3 as an example. The layers of placement seats 3 are arranged sequentially at intervals along the height direction of the three-dimensional support frame 2. The three-dimensional support frame 2 includes multiple vertically arranged support rods 21 and multiple horizontally arranged mounting seats 22.
[0027] like Figure 3 , Figure 4 As shown, multiple mounting cylinders 7 are fixedly installed inside the planting bed 1. The number of mounting cylinders 7 can be increased or decreased according to the size of the planting bed 1. This embodiment uses four mounting cylinders 7 as an example, with the mounting cylinders 7 arranged in pairs on both sides of the planting bed 1. The number of support rods 21 corresponds to the number of mounting cylinders 7. The bottom of the support rods 21 is inserted and fixed into their respective mounting cylinders 7 from top to bottom. Subsequently, the bottom of the support rods 21 can be further fixed to their respective mounting cylinders 7 using bolts, clamps, or other fasteners.
[0028] like Figure 3 , Figure 4As shown, multiple stepped platforms 210 are integrally formed coaxially on the support rod 21, with the outer diameter of each stepped platform 210 decreasing sequentially from bottom to top. Two layers of mounting seats 22 are sequentially inserted onto the support rod 21 from top to bottom, and each layer of mounting seat 22 is respectively limited and fixed above the corresponding stepped platform 210. The top of the stepped platform 210 is used to provide support for each layer of mounting seat 22, thereby effectively preventing the mounting seats 22 from falling.
[0029] like Figure 3 , Figure 4 As shown, the mounting base 22 is arc-shaped, and multiple clearance grooves 220 are provided through it. These grooves are arranged at intervals along the radial direction of the mounting base 22. The placement base 3 is also arc-shaped and is placed on the mounting base 22. Placement bases 3 on the same layer are also arranged radially along the mounting base 22. The mounting base 22 also has multiple insertion holes 20 located below the placement base 3. Multiple insertion posts 30, corresponding one-to-one with the insertion holes 20, are fixedly installed at the bottom of the placement base 3. The insertion posts 30 are inserted and fixed into their respective insertion holes 20 from top to bottom. The placement base 3 is fixed to the mounting base 22 through the mutual insertion and engagement of the insertion posts 30 and the insertion holes 20.
[0030] like Figure 3 , Figure 4 As shown, an arc-shaped partition 31 is fixedly installed inside the placement base 3, dividing the internal space of the placement base 3 into two receiving slots 310. Potted plants 4 are placed in the receiving slots 310 in sequence. The width of the receiving slots 310 is adapted to the outer diameter of the potted plants 4, and the receiving slots 310 are used to confine the potted plants 4 within the placement base 3. The bottom of the placement base 3 has multiple drainage holes 32 that communicate with the receiving slots 310, and the drainage holes 32 are used to drain the water accumulated in the placement base 3 in a timely manner.
[0031] When placing potted plants 4 sequentially into the receiving trough 310, the person arranging the plants simply needs to climb to one side of the placement base 3 using scaffolding. Then, the potted plants 4 filled with flowers can be placed sequentially into the designated receiving trough 310. Since the width of the receiving trough 310 matches the outer diameter of the potted plants 4, as subsequent potted plants 4 are placed into the receiving trough 310, the subsequent potted plants 4 will push the preceding potted plants 4 forward along the receiving trough 310 until the receiving trough 310 is full. It should be noted that to ensure the potted plants 4 do not deform during the pushing process, the potted plants 4 can be made of hard metal, ceramic, or plastic with a certain degree of hardness. Furthermore, the inner wall of the receiving trough 310 needs to be kept smooth to reduce the friction experienced by the potted plants 4 during movement. To further improve placement efficiency, the person arranging the plants 4 can simultaneously place them from both sides of the receiving trough 310.
[0032] Using the above placement method, the placement personnel do not need to walk back and forth in the placement area to complete the placement of potted plants 4, which greatly improves the placement efficiency of potted plants 4, reduces the risk of falling for the placement personnel, and makes the placement process more time-saving and labor-saving.
[0033] like Figure 3 , Figure 4 As shown, a threaded post 23 is coaxially fixed at the top of the support rod 21. A fastening nut 5 is threaded onto the outside of the threaded post 23. The mounting seat 22 located at the top of the support rod 21 passes through the outside of the threaded post 23. The fastening nut 5 is used to tighten and fix the mounting seat 22 located at the top of the support rod 21 onto the top step platform 210.
[0034] like Figure 3 , Figure 4 As shown, a pressure rod 6 is fixedly installed on the outer wall of the mounting base 22. The pressure rod 6 is parallel to the support rod 21, and its length extends towards the lower mounting base 22. A limiting plate 221 is fixedly installed on the outer wall of the mounting base 22 below the pressure rod 6. The limiting plate 221 has a through hole 24 for the bottom of the pressure rod 6 to be inserted into the limiting plate 221 from top to bottom. A pressing plate 60 is coaxially fixedly sleeved on the outside of the pressure rod 6. The outer diameter of the pressing plate 60 is larger than the inner diameter of the through hole 24. A nut is also threaded to the bottom of the pressure rod 6, and the bottom of the pressure rod 6 is tightened and fixed below the limiting plate 221 by the nut. The pressing plate 60 abuts against the upper surface of the limiting plate 221. Each layer of mounting base 22 is connected and fixed in sequence by the pressure rod 6, which can further improve the reliability of each layer of mounting base 22 and make each layer of mounting base 22 more firmly installed on the support rod 21, preventing the mounting base 22 from shifting on the support rod 21.
[0035] like Figure 1 , Figure 5 As shown, a passageway 8 for pedestrians is formed between two adjacent planting beds 1. A sunshade 9 is fixedly installed on the top of the passageway 8 between two adjacent mounting seats 22 on the top layer of the support rod 21. The sunshade 9 includes multiple arched plug-in rods 90, which are arranged at intervals along the length of the passageway 8. A sunshade awning 91 is fixedly laid on the top of the plug-in rods 90. The two ends of the plug-in rods 90 are inserted into their respective top mounting seats 22 from top to bottom. A locking nut 92 is threaded to the bottom of the plug-in rod 90, and the plug-in rod 90 is tightened and fixed to the mounting seat 22 by the locking nut 92. The sunshade awning 91 can provide temporary sunshade and rain protection for pedestrians in the passageway 8, making the design more user-friendly.
[0036] The implementation principle is as follows: When potted plants 4 need to be placed sequentially into the receiving trough 310, the person placing them only needs to climb to one side of the placement seat 3 using scaffolding. Then, the potted plants 4 filled with flowers can be placed sequentially into the receiving trough 310 of the specified size. Since the width of the receiving trough 310 is adapted to the outer diameter of the potted plants 4, as the potted plants 4 are continuously placed into the receiving trough 310, the potted plants 4 behind will push the potted plants 4 in front of them to move forward along the receiving trough 310 until the receiving trough 310 is full. To ensure that the potted plants 4 do not deform during the pushing process, the potted plants 4 can be made of hard metal, ceramic, or plastic with a certain degree of hardness. In addition, the inner wall of the receiving trough 310 needs to be kept smooth to reduce the friction experienced by the potted plants 4 during movement. To further improve the placement efficiency, the person placing them can simultaneously place the potted plants 4 from both sides of the receiving trough 310.
[0037] Using the above placement method, the placement personnel do not need to walk back and forth within the placement area to complete the placement of the potted plants 4, which greatly improves the placement efficiency of the potted plants 4, reduces the risk of the placement personnel falling, and makes the placement process more time-saving and labor-saving. The sunshade 91 can provide temporary sunshade and rain protection for pedestrians in the passageway 8, and the design is more user-friendly.
[0038] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. A garden landscape flower bed structure, comprising multiple circumferentially arranged planting beds (1), wherein a three-dimensional support frame (2) is provided within each planting bed (1), characterized in that: The three-dimensional support (2) is provided with a placement seat (3), and the bottom of the placement seat (3) is provided with a plug-in post (30). The three-dimensional support (2) is provided with a plug-in hole (20) corresponding to the plug-in post (30). The plug-in post (30) is inserted and fixed in its respective corresponding plug-in hole (20). The placement seat (3) is provided with a partition (31). The partition (31) divides the internal space of the placement seat (3) into multiple receiving slots (310). Potted plants (4) are placed in the receiving slots (310) in sequence. The width of the receiving slot (310) is adapted to the outer diameter of the potted plant (4). The receiving slot (310) is used to limit the potted plant (4) in the placement seat (3).
2. The garden landscape flower bed structure according to claim 1, characterized in that: The bottom of the placement seat (3) has multiple drainage holes (32) that communicate with the receiving groove (310).
3. The garden landscape flower bed structure according to claim 2, characterized in that: The placement seat (3) is provided with multiple layers, and the placement seats (3) of each layer are arranged at intervals along the height direction of the three-dimensional support (2).
4. The garden landscape flower bed structure according to claim 3, characterized in that: The three-dimensional support (2) includes multiple vertically arranged support rods (21) and multiple horizontally arranged mounting seats (22); multiple stepped platforms (210) are coaxially arranged on the support rods (21), and the outer diameter of the stepped platforms (210) decreases from bottom to top; the mounting seats (22) are sequentially inserted through the support rods (21) from top to bottom, and the mounting seats (22) are respectively limited and fixed on the corresponding stepped platforms (210); the insertion hole (20) is provided on the mounting seat (22), and the placement seat (3) is inserted and fixed on the mounting seat (22) through the insertion post (30).
5. The garden landscape flower bed structure according to claim 4, characterized in that: The top of the support rod (21) is coaxially provided with a threaded column (23), and a fastening nut (5) is threaded to the outside of the threaded column (23). The mounting seat (22) located at the top of the support rod (21) passes through the outside of the threaded column (23). The fastening nut (5) tightens and fixes the mounting seat (22) located at the top of the support rod (21) onto the stepped platform (210).
6. The garden landscape flower bed structure according to claim 5, characterized in that: A pressure rod (6) is provided on the mounting base (22), and the length of the pressure rod (6) extends towards the lower mounting base (22). A limiting plate (221) is provided on the mounting base (22) below the pressure rod (6), and an insertion hole (24) for inserting the bottom of the pressure rod (6) into the limiting plate (221) is provided through the limiting plate (221). A pressing plate (60) is coaxially fixed on the outside of the pressure rod (6), and the outer diameter of the pressing plate (60) is larger than the inner diameter of the insertion hole (24). The pressing plate (60) abuts against the upper surface of the limiting plate (221).
7. The garden landscape flower bed structure according to claim 4, characterized in that: Multiple mounting cylinders (7) are fixedly installed inside the planting bed (1), and the bottom of the support rod (21) is inserted and fixed in its respective corresponding mounting cylinder (7).
8. The garden landscape flower bed structure according to claim 4, characterized in that: A passageway (8) for pedestrians is formed between adjacent planting beds (1), and a sunshade (9) is fixedly installed on the top of the passageway (8) between adjacent mounting bases (22).