A ceramic flowerpot facilitating fertilization
By incorporating an inner pot, drainage holes, and fertilizer tubes into the ceramic flowerpot, the problems of uneven fertilization and root damage in existing ceramic flowerpots are solved, achieving precise fertilization and efficient fertilizer utilization, and improving the cleanliness and suitability of the plant growth environment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FUJIAN DEHUA COUNTY YALIDA CERAMICS CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-07-03
Smart Images

Figure CN224439795U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic flower pot technology, specifically to a ceramic flower pot that is easy to fertilize. Background Technology
[0002] Flower pots are basin-shaped containers used in private gardens and villas, and are widely used in landscaping and greening projects. Among them, terracotta pots have the most artistic effect. Flower pots for planting flowers come in various forms and sizes. Flower producers or flower growers can choose flower pots according to the characteristics and needs of the flowers and the features of the flower pots. Flower pots on the market are divided into fiberglass flower pots, sandstone flower pots, cement flower pots, magnesium oxide flower pots, purple clay pots, etc., and are widely used in landscaping and greening projects.
[0003] Existing ceramic flowerpots present numerous inconveniences in fertilization. Traditional fertilization methods typically involve directly sprinkling fertilizer on the soil surface or shallowly burying it in the soil. This not only easily leads to uneven fertilizer distribution, affecting the plant's nutrient absorption efficiency, but also easily damages the plant's root system during the fertilization process. Furthermore, for some liquid fertilizers, direct application to the soil surface may result in fertilizer runoff and waste, and may also pollute the environment around the flowerpot. Moreover, different plants have different fertilizer requirements at different growth stages, and existing ceramic flowerpots struggle to achieve precise fertilization and control the fertilizer release rate. Therefore, we propose a ceramic flowerpot that facilitates fertilization. Utility Model Content
[0004] In view of the problems existing in the current ceramic flower pots that facilitate fertilization, this utility model is proposed.
[0005] Therefore, the purpose of this utility model is to provide a ceramic flowerpot that facilitates fertilization, solving the numerous inconveniences associated with fertilization in existing ceramic flowerpots. Traditional fertilization methods typically involve directly sprinkling fertilizer on the soil surface or shallowly burying it in the soil. This not only easily leads to uneven fertilizer distribution, affecting the plant's nutrient absorption efficiency, but also easily damages the plant's root system during the fertilization process. Furthermore, for some liquid fertilizers, directly pouring them onto the soil surface may cause fertilizer runoff and waste, and may also pollute the environment around the flowerpot. Moreover, different plants have different fertilizer requirements at different growth stages, and existing ceramic flowerpots struggle to achieve precise fertilization and control the fertilizer release rate.
[0006] To achieve the above objectives, this utility model provides the following technical solution:
[0007] A ceramic flowerpot for easy fertilization includes a ceramic flowerpot body and an inner pot. The bottom of the ceramic flowerpot body is provided with a drainage hole. The inner pot is slidably disposed inside the ceramic flowerpot body. The bottom of the inner pot is provided with multiple seepage holes. Telescopic rods are fixedly installed on both sides inside the ceramic flowerpot body. Support plates are fixedly installed on the moving ends of the two telescopic rods. The inner pot is located on top of the support plates. A fertilizer storage cavity is provided between the bottom of the inner pot and the bottom of the inner side of the ceramic flowerpot body. A fertilizer inlet communicating with the fertilizer storage cavity is provided on one side surface of the ceramic flowerpot body. A sealing cap is provided inside the fertilizer inlet. The inner pot is filled with planting soil. Multiple fertilizer guide tubes are buried in the planting soil. One end of the fertilizer guide tube extends to the bottom of the inner pot near the seepage holes, and the other end of the fertilizer guide tube extends to the surface of the planting soil.
[0008] Preferably, the inner basin is made of ceramic, and the outer dimensions of the inner basin match the internal dimensions of the ceramic flowerpot body.
[0009] Preferably, all of the fertilizer guide tubes are hollow flexible tubes, and the surfaces of the fertilizer guide tubes are provided with multiple micropores, the diameter of which is smaller than the particle size of the planting soil.
[0010] Preferably, the sealing cover has a sealing gasket on one side, and the surface of the ceramic flowerpot body is provided with a sealing groove, and the sealing gasket and the sealing groove are matched in size.
[0011] Preferably, a drain pipe is fixedly installed inside the drain hole, and a one-way valve is fixedly installed on the surface of the drain pipe.
[0012] Preferably, the bottom of the ceramic flowerpot body is provided with a water receiving tray, and the drainage pipe is located inside the water receiving tray.
[0013] The technical effects and advantages provided by this utility model in the above technical solution are as follows:
[0014] 1. This utility model, by setting a detachable inner basin and fertilizer storage chamber, allows fertilizer solution to be injected into the fertilizer storage chamber. The fertilizer solution slowly permeates into the planting soil through the seepage hole and fertilizer guide tube, achieving precise fertilization and controlling the release rate of fertilizer, improving fertilizer utilization and reducing fertilizer waste.
[0015] 2. This utility model has a support column at the bottom of the inner pot to support the inner pot inside the ceramic flower pot body, which avoids damage to the plant roots during fertilization and also facilitates the disassembly and cleaning of the inner pot.
[0016] 3. This utility model, through the setting of fertilizer guide tubes, enables the fertilizer solution to be evenly distributed in the planting soil, ensuring the balanced absorption of nutrients by the plant roots and promoting healthy plant growth.
[0017] 4. This utility model, by incorporating a telescopic rod, allows for flexible adjustment of the fertilizer storage chamber volume according to different fertilization needs and plant growth stages, thereby improving the practicality and applicability of the flowerpot. Attached Figure Description
[0018] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments recorded in this utility model. For those skilled in the art, other drawings can be obtained based on these drawings.
[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0020] Figure 2 This is a schematic diagram of the overall cross-sectional structure of this utility model;
[0021] Figure 3 This is a schematic diagram of the overall structure of the fertilizer guide tube of this utility model;
[0022] Figure 4 This is a schematic diagram of the overall structure of the sealing cap of this utility model.
[0023] Explanation of reference numerals in the attached figures:
[0024] 1. Ceramic flowerpot body; 2. Inner pot; 3. Drainage hole; 4. Drainage hole; 5. Telescopic rod; 6. Support plate; 7. Fertilizer storage chamber; 8. Fertilizer inlet; 9. Sealing cap; 10. Planting soil; 11. Fertilizer guide tube; 12. Micropores; 13. Sealing gasket; 14. Sealing groove; 15. Drainage pipe; 16. One-way valve; 17. Water tray. Detailed Implementation
[0025] To enable those skilled in the art to better understand the technical solution of this utility model, the present utility model will be further described in detail below with reference to the accompanying drawings.
[0026] This utility model discloses a ceramic flowerpot that facilitates fertilization.
[0027] This utility model provides, for example Figure 1-4The ceramic flowerpot shown includes a ceramic flowerpot body 1 and an inner pot 2. The bottom of the ceramic flowerpot body 1 is provided with a drainage hole 3. The inner pot 2 is slidably disposed inside the ceramic flowerpot body 1. The bottom of the inner pot 2 is provided with multiple seepage holes 4. Telescopic rods 5 are fixedly installed on both sides inside the ceramic flowerpot body 1. Support plates 6 are fixedly installed on the moving ends of the two telescopic rods 5. The inner pot 2 is located on top of the support plate 6, and a fertilizer storage cavity 7 is provided between the bottom of the inner pot 2 and the bottom of the inner side of the ceramic flowerpot body 1. A fertilizer inlet 8 communicating with the fertilizer storage cavity 7 is provided on one side surface of the ceramic flowerpot body 1. A sealing cap 9 is provided inside the fertilizer inlet 8. The inner pot 2 is filled with planting soil 10. Multiple fertilizer guide tubes 11 are buried in the planting soil 10. One end of the fertilizer guide tube 11 extends to the bottom of the inner pot 2 near the seepage hole 4, and the other end of the fertilizer guide tube 11 extends to the surface of the planting soil 10.
[0028] This utility model provides a ceramic flowerpot that facilitates fertilization. The inner pot 2 is made of ceramic material, and the external dimensions of the inner pot 2 match the internal dimensions of the ceramic flowerpot body 1. This ensures the stability of the inner pot 2 within the ceramic flowerpot body 1 and meets the planting needs of different plants.
[0029] This utility model provides a ceramic flowerpot that facilitates fertilization. The multiple fertilizer guide tubes 11 are hollow flexible tubes, and the surfaces of the multiple fertilizer guide tubes are provided with multiple micropores 12. The pore diameter of the multiple micropores 12 is smaller than the particle diameter of the planting soil 10, which prevents the planting soil from entering the fertilizer guide tubes 11, while ensuring that the fertilizer solution can penetrate into the planting soil through the micropores 12.
[0030] This utility model provides a ceramic flowerpot that facilitates fertilization. The sealing cover 9 has a sealing gasket 13 on one side, and the surface of the ceramic flowerpot body 1 is provided with a sealing groove 14. The sealing gasket 13 and the sealing groove 14 are matched in size to prevent fertilizer solution leakage.
[0031] This utility model provides a ceramic flowerpot that facilitates fertilization. A drainage pipe 15 is fixedly installed inside the drainage hole 3, and a one-way valve 16 is fixedly installed on the surface of the drainage pipe 15 to facilitate the drainage of excess water from the inner pot 2.
[0032] This utility model provides a ceramic flowerpot that facilitates fertilization. The bottom of the ceramic flowerpot body 1 is provided with a water receiving tray 17, and the drainage pipe 15 is located inside the water receiving tray 17 to receive the water flowing out from the drainage pipe 15 and keep the environment around the flowerpot clean.
[0033] When in use, open the sealing cover 9 and inject the fertilizer solution into the fertilizer storage chamber 7 through the fertilizer inlet 8. The fertilizer solution enters the inner pot 2 through the seepage hole 4 and slowly permeates into the planting soil 10 through the micropores 12 on the fertilizer guide tube 11 to provide nutrients for the plants. When it is necessary to replace or clean the inner pot 2, the inner pot 2 can be removed from the ceramic flower pot body 1 for operation. At the same time, by adjusting the height of the telescopic rod 5, the volume of the fertilizer storage chamber 7 can be adjusted according to the actual fertilization needs.
[0034] The foregoing description only illustrates certain exemplary embodiments of the present invention. Undoubtedly, those skilled in the art can modify the described embodiments in various ways without departing from the spirit and scope of the present invention. Therefore, the above drawings and descriptions are illustrative in nature and should not be construed as limiting the scope of protection of the claims of the present invention.
Claims
1. A ceramic flowerpot for facilitating fertilization, comprising a ceramic flowerpot body (1) and an inner pot (2), characterized in that, The ceramic flowerpot body (1) has a drainage hole (3) at its bottom. An inner pot (2) is slidably installed inside the ceramic flowerpot body (1). The bottom of the inner pot (2) has multiple seepage holes (4). Telescopic rods (5) are fixedly installed on both sides inside the ceramic flowerpot body (1). Support plates (6) are fixedly installed on the moving ends of the two telescopic rods (5). The inner pot (2) is located on top of the support plate (6), and there is a gap between the bottom of the inner pot (2) and the bottom of the inner side of the ceramic flowerpot body (1). The ceramic flowerpot body (1) has a fertilizer storage cavity (7). One side surface of the ceramic flowerpot body (1) is provided with a fertilizer inlet (8) that communicates with the fertilizer storage cavity (7). The fertilizer inlet (8) is provided with a sealing cap (9). The inner pot (2) is filled with planting soil (10). Multiple fertilizer guide tubes (11) are buried in the planting soil (10). One end of the fertilizer guide tube (11) extends to the bottom of the inner pot (2) near the seepage hole (4), and the other end of the fertilizer guide tube (11) extends to the surface of the planting soil (10).
2. The fertilizing ceramic flowerpot according to claim 1, characterized in that, The inner pot (2) is made of ceramic material, and the outer dimensions of the inner pot (2) match the inner dimensions of the ceramic flowerpot body (1).
3. The ceramic flowerpot for easy fertilization according to claim 1, characterized in that, The multiple fertilizer guide tubes (11) are all hollow flexible tubes, and the multiple fertilizer guide surfaces are provided with multiple micropores (12), the diameter of the multiple micropores (12) is smaller than the particle size of the planting soil (10).
4. The fertilizing ceramic flowerpot of claim 1, wherein, The sealing cover (9) has a sealing gasket (13) on one side, and the ceramic flowerpot body (1) has a sealing groove (14) on its surface. The sealing gasket (13) and the sealing groove (14) are matched in size.
5. The fertilizing ceramic flowerpot of claim 1, wherein, A drain pipe (15) is fixedly installed inside the drain hole (3), and a one-way valve (16) is fixedly installed on the surface of the drain pipe (15).
6. The fertilizing ceramic flowerpot of claim 5, wherein, The ceramic flowerpot body (1) is provided with a water receiving tray (17) at the bottom, and the drainage pipe (15) is located inside the water receiving tray (17).