Ceramic flowerpot with built-in quick release structure
The ceramic flowerpot with a built-in quick-release structure, using an inner cylinder, water storage chamber, water guide section and water guide strip, solves the problem of uneven watering, realizes the uniform distribution of water and the secondary use of excess water, and improves the watering effect of vegetation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FU JIAN SHENG DE HUA XIAN XING YE TAO CI YOU XIAN GONG SI
- Filing Date
- 2025-07-28
- Publication Date
- 2026-06-23
AI Technical Summary
Uneven watering in conventional ceramic flower pots prevents plant roots from effectively absorbing water.
The ceramic flowerpot features a built-in quick-release structure, including an inner cylinder, a water storage chamber, a water guide section, a support plate, and water guide strips, enabling uniform water distribution and secondary utilization.
The design of the inner cylinder and water storage chamber enables uniform irrigation and reuse of excess water, avoiding uneven irrigation and ensuring that the plant roots fully absorb water.
Smart Images

Figure CN224386295U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramic flower pot technology, and in particular to a ceramic flower pot with a built-in quick-release structure. Background Technology
[0002] A flowerpot is a container used for planting flowers, typically shaped like an inverted frustum or truncated pyramid with a wide mouth and a narrow base. Flowerpots come in various forms and sizes. Flower producers and enthusiasts can choose flowerpots based on the characteristics and needs of their plants, as well as the features of the pot itself. Depending on the materials used in their construction, flowerpots can be categorized into many types.
[0003] Conventional ceramic flower pots are mostly single-pot structures. When cultivating plants in them, water is usually poured directly onto the top of the plant. As a result, most of the water is absorbed by the top layer of soil. Since the plant roots are located at the bottom of the soil, this leads to uneven watering and hinders the plant's water absorption. Therefore, a ceramic flower pot with a built-in quick-release structure is proposed. Utility Model Content
[0004] Therefore, it is necessary to provide a ceramic flowerpot with a built-in quick-release structure to address the above-mentioned technical problems. The inner cylinder is designed inside the ceramic pot body so that excess water will fall into the water storage cavity through the support plate. With the design of the water guide strip, the excess water can be reused.
[0005] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:
[0006] A ceramic flowerpot with a built-in quick-release structure includes a ceramic pot body, the interior of which has a built-in cavity, and an inner cylinder is placed inside the built-in cavity. The inner cylinder has a protrusion extending outward from its edge for mounting with the top of the ceramic pot body, so that a water storage cavity is left between the bottom of the inner cylinder and the bottom wall of the ceramic pot body.
[0007] The surface of the inner cylinder is formed with a water guiding part, and the top of the water guiding part has a water inlet end, which is connected to the interior of the inner cylinder through the water guiding part.
[0008] Furthermore, a support plate is placed on the side wall of the inner cylinder, and the surface of the support plate has a water filter groove, which can support the vegetation above.
[0009] Furthermore, the bottom wall of the inner cylinder is provided with a drain hole, and a water guide strip is inserted into the drain hole. One end of the water guide strip is located in the water storage cavity, and the other end is located above the support plate.
[0010] Furthermore, the water guiding part has multiple parts, which are evenly distributed along the height direction of the inner cylinder, and all the water guiding parts are located above the support plate.
[0011] Furthermore, a water-filling part is fixed to the surface of the ceramic basin, the outer end of the water-filling part has a water inlet groove, and the other end has a drain groove.
[0012] Furthermore, the number of water-filling sections corresponds to the number of water-guiding sections, and the water-filling section is located above the corresponding water-guiding section.
[0013] Furthermore, the plurality of water guiding parts are staggered along the outer periphery of the ceramic basin.
[0014] Furthermore, the ceramic basin has an overflow groove on its outer side, and the overflow groove corresponds to the height of the support plate.
[0015] Furthermore, a ceramic tray is placed on the ceramic basin.
[0016] Compared with the prior art, the present invention has the following beneficial effects:
[0017] The ceramic flowerpot with a built-in quick-release structure provided by this utility model allows water to be added from the outside through the watering section, thanks to the inner cylinder. At the same time, the water guide section allows water to be poured from the outside of the soil. With the addition of multiple watering sections, watering can be carried out on different soil layers at the same time, thus ensuring the uniformity of watering and avoiding the impact on the overall watering effect caused by watering only on the top layer.
[0018] With the inner cylinder and water storage chamber, excess water after irrigation can be temporarily stored in the water storage chamber. At the same time, with the water diversion strip, when the soil is short of water, the water can be diverted, thus realizing the secondary use of excess water. Attached Figure Description
[0019] Figure 1 A schematic diagram of the ceramic flowerpot with built-in quick-release structure provided by this utility model;
[0020] Figure 2 A schematic diagram of the disassembly structure of the ceramic flowerpot with built-in quick-release structure provided by this utility model;
[0021] Figure 3 A cross-sectional view of the ceramic flowerpot with a built-in quick-release structure provided by this utility model.
[0022] Figure 4 A cross-sectional view of the ceramic flowerpot with a built-in quick-release structure provided by this utility model.
[0023] Figure 5 A schematic diagram of the ceramic flowerpot with built-in quick-release structure provided by this utility model in its usage state.
[0024] Figure 6 A partial structural diagram of the ceramic flowerpot with a built-in quick-release structure provided by this utility model.
[0025] The markings in the diagram are explained as follows:
[0026] 1. Ceramic basin body; 11. Internal cavity; 12. Water storage cavity; 13. Water filling part; 14. Water filling trough; 15. Drainage trough; 16. Overflow trough;
[0027] Inner cylinder 2, boss 21, water guide 22, water inlet 23, support plate 24, drain hole 25, water guide strip 26;
[0028] Ceramic tray 3. Detailed Implementation
[0029] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention 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 invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.
[0030] Example 1
[0031] Please refer to Figures 1-6 As shown, a ceramic flowerpot with a built-in quick-release structure includes a ceramic pot body 1. The ceramic pot body 1 has an internal cavity 11, and an inner cylinder 2 is placed inside the internal cavity 11. A protrusion 21 extends outward from the edge of the inner cylinder 2 for mounting with the top of the ceramic pot body 1, so that a water storage cavity 12 is left between the bottom of the inner cylinder 2 and the bottom wall of the ceramic pot body 1. With the setting of the water storage cavity 12, when watering the soil inside the inner cylinder 2, excess water will fall into the water storage cavity 12 through the bottom of the inner cylinder 2, waiting for subsequent secondary use.
[0032] The inner cylinder 2 has a water guiding part 22 formed on its surface. The top of the water guiding part 22 has a water inlet end 23. The water inlet end 23 is connected to the interior of the inner cylinder 2 through the water guiding part 22.
[0033] A support plate 24 is placed on the side wall of the inner cylinder 2. The surface of the support plate 24 has a water filter groove. The support plate 24 can support the vegetation above.
[0034] Since there are multiple water guiding sections 22, after the water source is input into the water guiding section 22, the water source can be directly irrigated through the outside of the soil. In this way, multiple different levels of irrigation can be carried out simultaneously to achieve more comprehensive irrigation of the soil. Compared with the conventional method of irrigating from the top, it can avoid the problem of uneven irrigation, which would prevent the bottom roots from effectively and fully absorbing the water source.
[0035] Example 2
[0036] The ceramic flowerpot with a built-in quick-release structure provided in Embodiment 1 has been further optimized, specifically, as follows: Figure 4 As shown, the bottom wall of the inner cylinder 2 is provided with a drain hole 25, and a water guide strip 26 is inserted into the drain hole 25. The water guide strip 26 can be made of cotton fabric with good water absorption. One end of the water guide strip 26 is located in the water storage cavity 12, and the other end is located above the support plate 24.
[0037] The drainage hole 25 allows water from the inner cylinder 2 to fall into the water storage chamber 12. In conjunction with the design of the water guide strip 26, when the soil is short of water, the water in the water storage chamber 12 can be guided to the soil on the support plate 24 through the water guide strip 26 to achieve root water absorption.
[0038] The water guiding section 22 has multiple parts, and the multiple water guiding sections 22 are distributed at equal intervals along the height direction of the inner cylinder 2, and the water guiding sections 22 are all located above the support plate 24.
[0039] Example 3
[0040] The ceramic flowerpot with a built-in quick-release structure provided in Embodiment 1 or 2 is further optimized, such as... Figure 4 and Figure 5 As shown, a water-filling part 13 is fixed on the surface of the ceramic basin 1. The outer end of the water-filling part 13 has a water-filling groove 14, and the other end has a drainage groove 15.
[0041] When it is necessary to irrigate the soil on the support plate 24, water can be added to multiple irrigation sections 13. The added water will be input into the irrigation section 13 through the water filling trough 14, and finally fall into the water inlet 23 on the corresponding water guide section 22 below through the drainage trough 15. Since the water inlet 23 is connected to the inside of the inner cylinder 2, the water source can directly irrigate the soil from the outside.
[0042] In this way, multiple irrigation units 13 can be used simultaneously to irrigate different layers of soil, avoiding the problem of uneven irrigation.
[0043] The number of water-filling sections 13 corresponds to the number of water-guiding sections 22, and the water-filling sections 13 are located above the corresponding water-guiding sections 22;
[0044] Multiple water guide sections 22 are staggered along the outer periphery of the ceramic basin 1. This staggered distribution of multiple water guide sections 22 can satisfy the orderly addition of water to multiple water guide sections 22, while also preventing them from obstructing each other. Furthermore, when conditions permit, water can be added to multiple water filling sections 13 simultaneously.
[0045] Example 4
[0046] The ceramic flowerpot with a built-in quick-release structure provided in Embodiment 3 has been further optimized, such as... Figure 5 The ceramic basin 1 shown has an overflow groove 16 on its outer side, and the overflow groove 16 corresponds to the height of the support plate 24.
[0047] Since the water storage space of the water storage cavity 12 is limited, when the water in the water storage cavity 12 reaches a certain level, the excess water can be discharged to the outside of the ceramic pot 1 through the overflow trough 16. This can prevent excessive water from directly spreading to the roots of the plant and affecting its growth.
[0048] Furthermore, the ceramic basin 1 is fitted with a ceramic tray 3. The design of the ceramic tray 3 not only supports the ceramic basin 1, making it effectively stable, but also enhances the overall aesthetics to a certain extent. Water overflowing from the overflow trough 16 can eventually fall into the interior of the ceramic tray 3, thus preventing water from overflowing from the outside and causing pollution to the surrounding environment. Moreover, by removing the ceramic tray 3 and pouring the collected water back into the inner cylinder 2, water can be recycled.
[0049] In this utility model, unless otherwise explicitly specified and limited, the terms "installation," "connection," "joining," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection, an electrical connection, or a connection that allows communication between them; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components, unless otherwise explicitly limited. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0050] Obviously, the embodiments described above are only some embodiments of this utility model, not all embodiments. The accompanying drawings show preferred embodiments of this utility model, but do not limit the patent scope of this utility model. This utility model can be implemented in many different forms; rather, the purpose of providing these embodiments is to provide a more thorough and comprehensive understanding of the disclosure of this utility model. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing specific embodiments, or make equivalent substitutions for some of the technical features. Any equivalent structures made using the content of this utility model specification and drawings, directly or indirectly applied to other related technical fields, are similarly within the patent protection scope of this utility model.
Claims
1. A ceramic flowerpot with a built-in quick-release structure, characterized in that, The device includes a ceramic basin (1), which has an internal cavity (11) and an inner cylinder (2) placed inside the internal cavity (11). The inner cylinder (2) has a protrusion (21) extending outward from its edge for mounting with the top of the ceramic basin (1), so that a water storage cavity (12) is left between the bottom of the inner cylinder (2) and the bottom wall of the ceramic basin (1). The inner cylinder (2) has a water guide portion (22) formed on its surface. The top of the water guide portion (22) has a water inlet end (23), and the water inlet end (23) is connected to the interior of the inner cylinder (2) through the water guide portion (22).
2. The ceramic flowerpot with a built-in quick-release structure according to claim 1, characterized in that, The inner cylinder (2) has a support plate (24) on its side wall. The surface of the support plate (24) has a water filter groove. The support plate (24) can support the vegetation above.
3. The ceramic flowerpot with a built-in quick-release structure according to claim 2, characterized in that, The bottom wall of the inner cylinder (2) is provided with a drain hole (25), and a water guide strip (26) is inserted into the drain hole (25). One end of the water guide strip (26) is located in the water storage cavity (12), and the other end is located above the support plate (24).
4. The ceramic flowerpot with a built-in quick-release structure according to claim 2, characterized in that, The water guide section (22) has multiple sections, which are evenly distributed along the height direction of the inner cylinder (2) and are all located above the support plate (24).
5. The ceramic flowerpot with a built-in quick-release structure according to claim 1, characterized in that, The surface of the ceramic basin (1) is fixed with a water filling part (13), the outer end of the water filling part (13) has a water filling groove (14), and the other end has a drainage groove (15).
6. The ceramic flowerpot with a built-in quick-release structure according to claim 5, characterized in that, The number of water-filling parts (13) corresponds to the number of water-guiding parts (22), and the water-filling parts (13) are located above the corresponding water-guiding parts (22).
7. The ceramic flowerpot with a built-in quick-release structure according to claim 6, characterized in that, Multiple water guides (22) are staggered along the outer periphery of the ceramic basin (1).
8. The ceramic flowerpot with a built-in quick-release structure according to claim 2, characterized in that, The ceramic basin (1) has an overflow groove (16) on its outer side, and the overflow groove (16) corresponds to the height of the support plate (24).
9. The ceramic flowerpot with a built-in quick-release structure according to claim 1, characterized in that, A ceramic tray (3) is placed at the bottom of the ceramic basin (1).