A stepped indoor potted landscape hanging pot

By designing a tiered indoor bonsai hanging pot, multi-level display and good drainage are achieved in a limited space, solving the problems of insufficient space utilization and poor drainage in traditional bonsai placement methods, and improving the decorative effect and plant growth environment.

CN224402309UActive Publication Date: 2026-06-26ZHEJIANG CHANGXING ANDA PLASTIC PROD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHEJIANG CHANGXING ANDA PLASTIC PROD
Filing Date
2025-06-24
Publication Date
2026-06-26

Smart Images

  • Figure CN224402309U_ABST
    Figure CN224402309U_ABST
Patent Text Reader

Abstract

The utility model relates to the technical field of home decoration, and disclose a kind of indoor potted plant hanging pot of ladder type, including water receiving basin, support column, potted plant support platform, drainage structure, adjusting structure, first and second potted plant structure and suspension structure, the drainage structure in the central top of water receiving basin, by sink, drain and drain outlet, can effectively discharge excess moisture, avoid plant root waterlogging and rot, the telescopic rod and sliding hole of adjusting structure, can be flexibly adjusted support platform spacing according to the size and space layout of potted plant, the potted plant support platform of ladder type is provided with first, second potted plant structure, can simultaneously show multiple different potted plants, increase spatial level and aesthetic feeling, the suspension structure of support column top, through top plate and Y-shaped hook, it is convenient to hang hanging pot, save space, the hanging pot solves the problem that traditional indoor potted plant is placed and space utilization is insufficient, drainage is not smooth etc., and it has the advantages of beauty and practicality, and brings better experience for home decoration.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This utility model relates to the field of home decoration technology, specifically a stepped indoor bonsai hanging pot. Background Technology

[0002] In modern home environments, people's pursuit of quality of life and aesthetic appeal in living spaces is constantly increasing. Indoor bonsai, as a decorative element that integrates natural landscapes into living spaces, has become widely popular. Indoor bonsai not only beautifies the environment and adds vitality to the home, but also improves indoor air quality to a certain extent, relieves people's mental and physical stress, and creates a warm and comfortable living atmosphere. The tiered indoor bonsai hanging pot, as an innovative indoor bonsai display carrier, breaks the monotonous pattern of traditional bonsai placement with its unique tiered structure. Through multi-layered layout, it increases the sense of space and can display multiple bonsai of different types at the same time, bringing a richer visual effect to home decoration.

[0003] However, traditional indoor bonsai placement methods have many limitations. Common flowerpots are placed directly on tabletops or the ground, which not only takes up a lot of space but also lacks a sense of layering and three-dimensionality, making it difficult to fully showcase the beauty of the bonsai. Traditional hanging pot designs are also relatively simple, mostly just a single pot hanging, which cannot meet people's needs for a diverse and rich visual experience. In addition, traditional hanging pots also have shortcomings in terms of drainage and plant care. Poor drainage can easily lead to root rot and affect plant growth. These problems reduce the decorative effect and ornamental value of indoor bonsai, making it difficult to meet the requirements of modern home decoration for both aesthetics and practicality. Therefore, we propose a stepped indoor bonsai hanging pot. Summary of the Invention

[0004] (a) Technical problems to be solved

[0005] To address the shortcomings of existing technologies, this utility model provides a stepped indoor bonsai hanging pot, which solves the aforementioned problems.

[0006] (II) Technical Solution

[0007] To achieve the above-mentioned objectives, this utility model provides the following technical solution: a stepped indoor bonsai hanging basin, including a water receiving basin, a drainage structure provided at the top center of the water receiving basin, support columns fixedly installed at the two corners of the top of the water receiving basin, bonsai support platforms slidably installed on the support columns, the bonsai support platforms being stepped, a first bonsai structure provided at the lower level of the steps of the bonsai support platform, a second bonsai structure provided at the upper level of the bonsai support platform, the bonsai support platforms being linearly distributed on the support columns, an adjustment structure provided between the bonsai support platforms, a set of mounting holes opened on the side of the bonsai support platform, a connecting rod fixedly installed in the mounting holes, the connecting rod connecting the bonsai support platforms on both sides to each other, and a suspension structure provided at the top of the support column.

[0008] Preferably, the drainage structure includes a water trough, a drainage channel, and a drain outlet. The water trough is provided on the top of the water receiving basin, the drainage channel is provided in the center of the bottom of the water trough, and the drain outlet is provided on the side of the water receiving basin. The drain outlet is connected to the drainage channel.

[0009] Preferably, the adjustment structure includes a telescopic rod and a sliding hole. The telescopic rod is fixedly installed on the top side of the water receiving basin. The bottom and top of the bonsai support platform are both connected to the telescopic rod. The bottom of the lower level and the top of the upper level of the bonsai support steps are provided with sliding holes, which are connected to the support column.

[0010] Preferably, the first bonsai structure includes a first bonsai water collection trough, a first bonsai drainage board, a first bonsai water outlet trough, and a first bonsai hanging pot. The first bonsai water collection trough is fixedly installed on the top of the lower layer of the bonsai support steps. Multiple sets of linearly distributed first bonsai drainage boards are fixedly installed on the top of the first bonsai water collection trough. A first bonsai hanging pot is fixedly installed on the top of the first bonsai drainage board. A first bonsai water outlet trough is provided at the bottom of the interior of the first bonsai water collection trough.

[0011] Preferably, the second bonsai structure includes a second bonsai water collection trough, a second bonsai drainage board, a second bonsai water outlet trough, and a second bonsai hanging pot. The second bonsai water collection trough is fixedly installed on the top of the upper level of the bonsai support steps. Multiple sets of linearly distributed second bonsai drainage boards are fixedly installed on the top of the second bonsai water collection trough. A second bonsai hanging pot is fixedly installed on the top of the second bonsai drainage board. A second bonsai water outlet trough is provided at the bottom of the interior of the second bonsai water collection trough.

[0012] Preferably, the suspension structure includes a top plate and hooks. The top plate is fixedly installed on the top of the support column, and multiple sets of linearly distributed hooks are fixedly installed on the top of the top plate. The hooks are Y-shaped, and the top of the hooks is semi-circular.

[0013] (III) Beneficial Effects

[0014] Compared with the prior art, this utility model provides a stepped indoor bonsai hanging pot, which has the following beneficial effects:

[0015] 1. This is a tiered indoor bonsai hanging planter with a tiered bonsai support design. Through multi-layered layout, it can display multiple bonsai of different types in a limited vertical space at the same time. The tiered design creates a rich sense of layering and three-dimensionality. The combination of bonsai of different heights forms a unique visual focus. It presents a different aesthetic from different angles, making the indoor space more artistic and perfectly solving the problems of insufficient space utilization and monotonous layout of traditional placement methods.

[0016] 2. This stepped indoor bonsai hanging pot is equipped with a complete drainage structure. The top of the water receiving basin has a water trough, a drainage trough, and a drain outlet, which are interconnected. When watering the bonsai, excess water will flow into the water trough of the receiving basin through the outlet of the first and second bonsai water collection troughs, and then be discharged through the drainage trough and drain outlet, effectively avoiding water accumulation. In addition, the design of the first and second bonsai drainage boards allows water in the soil to drain out appropriately, maintaining good soil aeration and creating a healthy growth environment for plant roots.

[0017] 3. This stepped indoor bonsai hanging pot is equipped with an adjustable structure, including a telescopic rod and sliding holes. By extending and retracting the telescopic rod, the spacing between the bonsai support platforms can be easily adjusted, allowing for flexible changes based on the size and number of bonsai being planted and the layout of the indoor space. Attached Figure Description

[0018] Figure 1 This is a schematic diagram of the structure of this utility model.

[0019] Figure 2 This is a schematic diagram of the connecting rod of this utility model.

[0020] Figure 3 This is a schematic diagram of the mounting holes for this utility model.

[0021] Figure 4 This is a schematic diagram of the sliding hole of this utility model.

[0022] In the diagram: 1. Water basin; 2. Support column; 3. Water trough; 4. Drainage trough; 5. Drain outlet; 6. Telescopic rod; 7. Bonsai support platform; 8. First bonsai water collection trough; 9. First bonsai drainage board; 10. First bonsai water outlet trough; 11. First bonsai hanging pot; 12. Second bonsai water collection trough; 13. Second bonsai drainage board; 14. Second bonsai water outlet trough; 15. Second bonsai hanging pot; 16. Mounting hole; 17. Sliding hole; 18. Connecting rod; 19. Top plate; 20. Hook. Detailed Implementation

[0023] 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.

[0024] Please see Figure 1-4 A stepped indoor bonsai hanging basin includes a water receiving basin 1 with a drainage structure at the center of the top. Support columns 2 are fixedly installed at the corners of the top of the water receiving basin 1. Bonsai support platforms 7 are slidably installed on the support columns 2. The bonsai support platforms 7 are stepped, with a first bonsai structure at the lower level of the steps and a second bonsai structure at the upper level. The bonsai support platforms 7 are linearly distributed on the support columns 2. An adjustment structure is provided between the bonsai support platforms 7. A set of mounting holes 16 are opened on the side of the bonsai support platforms 7. A connecting rod 18 is fixedly installed in the mounting holes 16, and the connecting rod 18 connects the two bonsai support platforms 7 to each other. A suspension structure is provided at the top of the support columns 2.

[0025] Furthermore, the drainage structure includes a water trough 3, a drainage channel 4, and a drain outlet 5. The water trough 3 is located on the top of the water basin 1, and the drainage channel 4 is located in the center of the bottom of the water trough 3. The drain outlet 5 is located on the side of the water basin 1 and is connected to the drainage channel 4. The water trough 3 can effectively receive excess water discharged from the first bonsai water outlet 10 and the second bonsai water outlet 14. The large water trough area can prevent water from overflowing and ensure that water can be smoothly collected in the drainage channel 4. Moreover, the water trough 3 has a moderate depth, which can store a certain amount of water without affecting the stability of the overall structure due to being too deep. The interior of the drainage channel 4 is smooth and its slope design is reasonable, which allows water to flow quickly and smoothly to the drain outlet 5, reducing the amount of water remaining in the drainage channel 4. The drain outlet 5 can be connected to a drainage pipe to facilitate the discharge of excess water outdoors or into the indoor drainage system, keeping the indoor area dry and clean, avoiding slippery floors due to water accumulation, and eliminating safety hazards.

[0026] Furthermore, the adjustment structure includes a telescopic rod 6 and a sliding hole 17. The telescopic rod 6 is fixedly installed on the top side of the water basin 1. The bottom and top of the bonsai support platform 7 are both connected to the telescopic rod 6. The bottom of the lower level and the top of the upper level of the bonsai support platform 7 are provided with sliding holes 17. The sliding holes 17 are connected to the support column 2. The telescopic rod 6 is made of high-strength and corrosion-resistant materials, such as aluminum alloy, to ensure that it will not easily deform or be damaged during frequent extension and retraction. Its extension and retraction range can meet the placement needs of bonsai of different sizes. The inner wall of the sliding hole 17 is smooth and has a high fitting precision with the support column 2. While ensuring that the bonsai support platform 7 slides flexibly, it can effectively reduce shaking and frictional resistance. The sliding hole 17 limits the sliding range of the bonsai support platform 7 on the support column 2, preventing structural instability due to excessive sliding and ensuring the safety and reliability of the entire adjustment process.

[0027] Furthermore, the first bonsai structure includes a first bonsai water collection trough 8, a first bonsai drainage board 9, a first bonsai water outlet 10, and a first bonsai hanging pot 11. The first bonsai water collection trough 8 is fixedly installed on the top of the lower layer of the bonsai support platform 7. Multiple sets of linearly distributed first bonsai drainage boards 9 are fixedly installed on the top of the first bonsai water collection trough 8. The first bonsai hanging pot 11 is fixedly installed on the top of the first bonsai drainage board 9. The first bonsai water outlet 10 is opened at the bottom of the interior of the first bonsai water collection trough 8. The material of the first bonsai water collection trough 8 has good waterproof and corrosion resistance, such as high-quality plastic or ceramic. Made of porcelain, it can withstand long-term immersion in water without damage. The surface of the First Bonsai Drainage Board 9 has many fine pores. The size of these pores is carefully designed to allow excess water to seep in smoothly while preventing soil particles from being lost, thus ensuring the integrity and breathability of the soil. The First Bonsai Hanging Pot 11 comes in various shapes and sizes, which can be selected according to different plant species and viewing needs. For example, for plants with well-developed root systems, a larger and deeper hanging pot can be selected to provide ample growing space for the roots. For small succulents, a small and exquisite hanging pot can be selected to increase the overall aesthetic appeal.

[0028] Furthermore, the second bonsai structure includes a second bonsai water collection trough 12, a second bonsai drainage board 13, a second bonsai water outlet 14, and a second bonsai hanging pot 15. The second bonsai water collection trough 12 is fixedly installed on the top of the bonsai support platform 7. Multiple sets of linearly distributed second bonsai drainage boards 13 are fixedly installed on the top of the second bonsai water collection trough 12. The second bonsai hanging pot 15 is fixedly installed on the top of the second bonsai drainage board 13. The second bonsai water outlet 14 is opened at the bottom of the interior of the second bonsai water collection trough 12. The second bonsai water collection trough 12 is similar to the first bonsai water collection trough 8. However, its size and position have been optimized according to the stepped design, and it works together with the first bonsai water collection trough 8 to form a multi-level drainage system. The design of the second bonsai drain board 13 also focuses on the compatibility with the plants. Its drainage performance is the same as that of the first bonsai drain board 9, ensuring that water will not accumulate at the plant roots. The second bonsai hanging pot 15 also has a variety of styles, and its color and style can be matched with the first bonsai hanging pot 11 to create an overall harmonious visual effect. For example, you can choose hanging pots of the same series but different shapes to make the entire stepped bonsai hanging pot more artistic.

[0029] Furthermore, the suspension structure includes a top plate 19 and hooks 20. The top plate 19 is fixedly installed on the top of the support column 2. Multiple sets of linearly distributed hooks 20 are fixedly installed on the top of the top plate 19. The hooks 20 are Y-shaped, and the top of the hooks 20 is semi-circular. The top plate 19 has a certain thickness and strength to bear the weight of the entire bonsai hanging pot, ensuring the safety of the suspension. Its connection with the support column 2 is firm, using welding or high-strength bolts to ensure that it will not loosen during long-term use. The Y-shaped design and semi-circular top of the hooks 20 not only increase the contact area between the hooks and the suspension point, improving the stability of the suspension, but also make it easy for users to hang the hanging pot on the ceiling hooks or wall rods. In addition, the number and distribution of the hooks 20 are reasonably planned to evenly distribute the weight of the hanging pot, avoiding tilting or falling of the hanging pot due to uneven force.

[0030] Structural Description:

[0031] Water basin 1: Water basin 1 is the basic component of the entire hanging pot. It is located at the bottom and has a drainage structure in the center of its top to catch excess water from the bonsai and prevent water accumulation indoors. Support columns are fixed at the corners on both sides of the top to provide support for the whole.

[0032] Support column 2: The support column 2 is installed on both sides of the top corner of the water basin 1 to support the bonsai support platform 7. The bonsai support platform 7 can slide on it, which plays the role of positioning and stabilizing support.

[0033] Water trough 3: Water trough 3 is located at the top center of water basin 1 and is part of the drainage structure. It receives excess water from the bonsai water collection trough. Its area and depth are reasonably designed to effectively collect water to drainage trough 4.

[0034] Drainage trough 4: Drainage trough 4 is located at the center of the bottom of water tank 3 and is connected to drain outlet 5. Its interior is smooth and has a reasonable slope, which allows the water in water tank 3 to flow quickly to drain outlet 5 and achieve smooth drainage.

[0035] Drain 5: Drain 5 is located on the side of the water basin 1 and is connected to the drain trough 4. It can be connected to a drain pipe to drain excess water and keep the room dry and clean.

[0036] Telescopic rod 6: The telescopic rod 6 is installed on the top side of the water basin 1 and is connected to the bottom and top of the bonsai support platform 7. The distance between the bonsai support platform 7 can be adjusted by telescopic extension to meet the different bonsai placement needs.

[0037] Bonsai support platform 7: The bonsai support platform 7 is stepped and linearly distributed on the support column 2. The lower and upper levels of the steps are respectively set with the first and second bonsai structures for placing bonsai and increasing the sense of spatial layering.

[0038] First Bonsai Water Collection Tank 8: The first bonsai water collection tank 8 is fixed to the top of the lower layer of the bonsai support platform 7 and is used to collect excess water from the first bonsai hanging pot 11. The material is waterproof and corrosion resistant.

[0039] First Bonsai Drainage Board 9: The first bonsai drainage board 9 is installed on top of the first bonsai water collection trough 8. The surface has fine holes, which can drain water and prevent soil particles from being lost, providing a good growing environment for plants.

[0040] First bonsai water outlet 10: The first bonsai water outlet 10 is located at the bottom of the first bonsai water collection tank 8 and is used to drain excess water from the first bonsai water collection tank 8 into the water tank 3 of the water receiving basin 1.

[0041] First Bonsai Hanging Pot 11: The first bonsai hanging pot 11 is placed on top of the first bonsai drainage board 9. It comes in various shapes and sizes and is used to plant plants to meet different viewing needs.

[0042] Second bonsai water collection trough 12: The second bonsai water collection trough 12 is fixed to the top of the upper step of the bonsai support platform 7, and works in conjunction with the first bonsai water collection trough 8 to collect excess water from the second bonsai hanging pot 15.

[0043] Second bonsai drainage board 13: The second bonsai drainage board 13 is installed on top of the second bonsai water collection trough 12 and has a similar function to the first bonsai drainage board 9, ensuring that the plant roots can breathe and drain.

[0044] Second bonsai water outlet 14: The second bonsai water outlet 14 is located at the bottom of the second bonsai water collection tank 12, where excess water is drained into the water tank 3 of the water receiving basin 1 to maintain a good growing environment.

[0045] Second bonsai hanging pot 15: The second bonsai hanging pot 15 is placed on top of the second bonsai drain plate 13. It comes in various styles and can be matched with the first bonsai hanging pot 11 to enhance the overall aesthetics.

[0046] Mounting hole 16: Mounting hole 16 is provided on the side of bonsai support 7 for mounting connecting rod 18, so that the two sides of bonsai support 7 can be connected to each other to enhance overall stability.

[0047] Sliding hole 17: Sliding hole 17 is located at the bottom of the lower level and the top of the upper level of the bonsai support platform 7. It works in conjunction with the support column 2 to ensure that the bonsai support platform 7 slides smoothly when the telescopic rod 6 extends or retracts.

[0048] Connecting rod 18: The connecting rod 18 is fixedly installed in the mounting hole 16 and connects the two bonsai support platforms 7 to prevent the support platforms 7 from shaking or shifting when adjusting or moving the hanging pot.

[0049] Top plate 19: Top plate 19 is fixed to the top of support column 2, providing an installation base for hook 20. It has a certain thickness and strength to ensure suspension safety.

[0050] Hook 20: Hook 20 is installed on the top of the ceiling plate 19 in a Y shape with a semi-circular top, which makes it easy to hang the basin on the ceiling hook or wall rod, saving space;

[0051] Working principle: After watering the bonsai, excess water in the first hanging pot 11 flows through the first bonsai drainage board 9 into the first bonsai drainage channel 10 at the bottom of the first bonsai water collection trough 8. Similarly, excess water in the second hanging pot 15 flows through the second bonsai drainage board 13 into the second bonsai drainage channel 14 at the bottom of the second bonsai water collection trough 12. This excess water eventually collects in the water trough 3 at the top of the water receiving basin 1, where it temporarily stores the water. Afterward, the water drains out through the drain outlet 5 on the side of the water receiving basin 1 along the drainage channel 4. This process prevents water from accumulating at the bottom of the bonsai, avoiding root rot due to waterlogging. To maintain indoor cleanliness, the adjustment structure consists of a telescopic rod 6 and a sliding hole 17. The telescopic rod 6 on the top side of the water basin 1 connects the bottom and top of the bonsai support platform 7. When it is necessary to adjust the spacing of the bonsai support platforms 7, if a large bonsai is to be displayed, the telescopic rod 6 is extended to move the bonsai support platform 7 and widen the spacing. If there are many small bonsai, the telescopic rod 6 is shortened to bring the support platforms 7 closer together, making full use of the space. When the telescopic rod 6 extends or retracts, the sliding hole 17 on the bonsai support platform 7 slides along the support column 2, ensuring that the support platform 7 rises and falls smoothly, meeting the needs of different bonsai layouts in different scenarios. The first bonsai structure and the second The two-bonsai structure is used for plant care and bonsai display. The first bonsai water collection trough 8 is fixed to the top of the lower level of the bonsai support platform 7. The first bonsai drainage board 9 on top of it is used to place the first bonsai hanging pot 11. Excess water can seep through the drainage board 9 into the first bonsai drainage channel 10. The second bonsai structure is similar. The second bonsai water collection trough 12 is fixed to the top of the upper level of the bonsai support platform 7. The second bonsai hanging pot 15 is placed on the second bonsai drainage board 13. Excess water is discharged through the second bonsai drainage channel 14. This ensures that the plants have the water they need for growth while preventing waterlogging from harming them. The top plate 19 at the top of the support column 2... The hooks 20 provide an installation base. Multiple linearly distributed Y-shaped hooks 20 with semi-circular tops can be securely hung on ceiling hooks or wall rods in the room. Through the suspension structure, the entire hanging pot can be hung up, saving indoor space and enhancing the sense of space and three-dimensionality, allowing people to appreciate the bonsai from different angles. The connecting rod 18 is installed in the mounting holes 16 on the side of the bonsai support platform 7, connecting the two sides of the bonsai support platform 7 to each other. When adjusting the bonsai support platform 7 or moving the hanging pot, the connecting rod 18 can effectively prevent the support platform 7 from shaking or shifting, enhancing the stability and safety of the entire hanging pot.

[0052] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A stepped indoor bonsai hanging basin, comprising a water receiving basin (1), characterized in that: A drainage structure is provided at the center of the top of the water basin (1). Support columns (2) are fixedly installed at the corners on both sides of the top of the water basin (1). Bonsai support platforms (7) are slidably installed on the support columns (2). The bonsai support platforms (7) are stepped. The lower layer of the steps of the bonsai support platforms (7) is provided with a first bonsai structure. The upper layer of the steps of the bonsai support platforms (7) is provided with a second bonsai structure. The bonsai support platforms (7) are linearly distributed on the support columns (2). An adjustment structure is provided between the bonsai support platforms (7). A set of mounting holes (16) is opened on the side of the bonsai support platforms (7). A connecting rod (18) is fixedly installed in the mounting holes (16). The connecting rod (18) connects the bonsai support platforms (7) on both sides to each other. A suspension structure is provided at the top of the support column (2).

2. A stepped indoor bonsai hanging pot according to claim 1, characterized in that: The drainage structure includes a water tank (3), a drainage trough (4), and a drain outlet (5). The top of the water receiving basin (1) is provided with a water tank (3), the bottom center of the water tank (3) is provided with a drainage trough (4), and the side of the water receiving basin (1) is provided with a drain outlet (5). The drain outlet (5) is connected to the drainage trough (4).

3. A stepped indoor bonsai hanging pot according to claim 1, characterized in that: The adjustment structure includes a telescopic rod (6) and a sliding hole (17). The telescopic rod (6) is fixedly installed on the top side of the water basin (1). The bottom and top of the bonsai support platform (7) are connected to the telescopic rod (6). The bottom of the lower level and the top of the upper level of the bonsai support platform (7) are provided with sliding holes (17). The sliding holes (17) are connected to the support column (2).

4. A stepped indoor bonsai hanging pot according to claim 1, characterized in that: The first bonsai structure includes a first bonsai water collection trough (8), a first bonsai drainage board (9), a first bonsai water outlet trough (10), and a first bonsai hanging pot (11). The first bonsai water collection trough (8) is fixedly installed on the top of the lower layer of the bonsai support platform (7). Multiple sets of first bonsai drainage boards (9) are fixedly installed on the top of the first bonsai water collection trough (8) in a linear distribution. The first bonsai hanging pot (11) is fixedly installed on the top of the first bonsai drainage board (9). The first bonsai water outlet trough (10) is opened at the bottom of the interior of the first bonsai water collection trough (8).

5. A stepped indoor bonsai hanging pot according to claim 1, characterized in that: The second bonsai structure includes a second bonsai water collection trough (12), a second bonsai drainage board (13), a second bonsai water outlet trough (14), and a second bonsai hanging pot (15). The second bonsai water collection trough (12) is fixedly installed on the top of the upper step of the bonsai support platform (7). Multiple sets of second bonsai drainage boards (13) are fixedly installed on the top of the second bonsai water collection trough (12) in a linear distribution. The second bonsai hanging pot (15) is fixedly installed on the top of the second bonsai drainage board (13). The second bonsai water outlet trough (14) is opened at the bottom of the interior of the second bonsai water collection trough (12).

6. A stepped indoor bonsai hanging pot according to claim 1, characterized in that: The suspension structure includes a top plate (19) and hooks (20). The top plate (19) is fixedly installed on the top of the support column (2). Multiple sets of hooks (20) are fixedly installed on the top of the top plate (19) in a linear distribution. The hooks (20) are Y-shaped and the top of the hooks (20) are semi-circular.