Double-layer resin flowerpot
The double-layer resin flower pot design solves the problems of uneven soil water absorption and water not being able to drain in time, achieving even water distribution and timely drainage, thus preventing root rot in plants.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QUANZHOU LONGXIN ARTS & CRAFTS CO LTD
- Filing Date
- 2025-08-25
- Publication Date
- 2026-06-09
Smart Images

Figure CN224330028U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of flower pots, specifically to a double-layer resin flower pot. Background Technology
[0002] Flower pots are containers used for cultivating plants, and are mostly made of materials such as clay, porcelain, plastic, and resin. They are commonly prismatic or cylindrical in shape, and come in a variety of sizes and shapes. Different types of flower pots can be selected based on the different growth needs of the plants. Household flower pots are commonly used for indoor plant cultivation and are often made of ceramic or resin to ensure cleanliness. To meet the requirements of breathability and water retention, flower pots often have drainage holes at the bottom or sides, allowing water to be added to the plants by watering, while excess water can drain out through the drainage holes.
[0003] To meet the need for frequent, small-volume watering of plants, a drip-irrigated flowerpot has been developed. Utility model patent "CN214593111U" discloses a drip-irrigated ceramic flowerpot, comprising a pot body assembly, a placement assembly, a water storage assembly, and an adjustment assembly. The placement assembly is located below the pot body assembly, the water storage assembly is installed above the surface of the pot body assembly, and the adjustment assembly is located on the pot body assembly corresponding to the position of the water storage assembly. The pot body assembly includes a ceramic pot body, several drip irrigation holes, an annular mounting groove, and permeable holes. The several drip irrigation holes are equidistantly spaced along the circumference on the surface of the ceramic pot body.
[0004] However, the drip irrigation method described in the aforementioned patent is above the soil, which can easily lead to uneven water absorption in the soil. Plant roots cannot absorb water in time, and when there is too much water in the soil of the flower pot, it cannot be drained in time, which can easily lead to root rot. Summary of the Invention
[0005] This invention provides a double-layer resin flowerpot that overcomes the shortcomings described in the background art.
[0006] The technical solution adopted by this utility model to solve its technical problem is: a double-layer resin flower pot, including a pot body, a water storage basin, and a water permeable hole. A detachable transparent observation window is provided at the bottom of the outer side of the pot body. The feature is that the inner walls of the pots have different diameters, with the larger inner wall located above the smaller inner wall, and an inner platform is formed at the junction of the larger inner wall and the smaller inner wall.
[0007] The water storage basin is a hollow ring-shaped basin with an open top, including an outer ring, an inner ring, and a ring bottom. The diameter of the outer ring is adapted to the large inner wall, and the diameter of the inner ring is smaller than that of the small inner wall. The ring bottom is provided with a small hole corresponding to the position of the drip irrigation channel, and a hole cover is provided above the small hole.
[0008] The water basin can be detached and placed in the area enclosed by the inner platform and the large inner wall. The surface of the small inner wall is provided with several drip irrigation channels and water permeable holes.
[0009] Preferably, the drip irrigation channel is a hollow long section extending vertically along the inner wall of the small channel, with the upper end aligned horizontally with the inner ring platform and the lower end close to the bottom of the inner wall of the small channel while retaining a gap.
[0010] Preferably, the permeable holes are located above the lower end of the drip irrigation channel, distributed at intervals along the circumference of the inner wall of the small drip irrigation channel.
[0011] Preferably, the bottom surface of the ring is provided with a downward protrusion, which engages with the groove on the upper surface of the inner platform.
[0012] Compared with existing technologies, it has the following advantages: This invention provides a double-layer resin flowerpot that achieves drip irrigation below the soil by setting a water storage basin with small holes and corresponding drip irrigation channels. Water is evenly distributed in the soil by utilizing the absorption of plant roots. By setting permeable holes and a detachable observation window, the moisture content in the soil can be judged in a timely manner. The detachable observation window allows for the drainage of accumulated water at the bottom of the pot, preventing root rot. Attached Figure Description
[0013] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0014] Figure 1 This is an overall drawing of the present utility model.
[0015] Figure 2 This is a cross-sectional view of the present invention.
[0016] Figure 3 This is a schematic diagram of a water storage basin.
[0017] Figure 4 This is a schematic diagram showing the distribution of drip irrigation channels and permeable holes.
[0018] In the diagram: 1. Basin body, 2. Water storage basin, 3. Water permeable hole, 4. Observation window, 5. Drip irrigation channel, 6. Large inner wall, 7. Small inner wall, 8. Inner platform, 21. Hole cover, 22. Outer ring, 23. Inner ring, 24. Ring bottom, 81. Groove, 241. Protrusion. Detailed Implementation
[0019] 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.
[0020] like Figures 1 to 4As shown, this utility model provides a double-layer resin flower pot, including a pot body 1, a water storage basin 2, and a water permeable hole 3. A detachable transparent observation window 4 is provided on the bottom of the outer side of the pot body 1. The pot body 1 has different inner wall diameters, with the larger inner wall 6 located above the smaller inner wall 7, and an inner platform 8 formed at the junction of the larger inner wall 6 and the smaller inner wall 7.
[0021] The water storage basin 2 is a hollow annular basin with an open top, including an outer ring 22, an inner ring 23, and a ring bottom 24. The diameter of the outer ring 22 is adapted to the large inner wall 6, and the diameter of the inner ring 23 is smaller than that of the small inner wall 7. The ring bottom 24 is provided with a small hole corresponding to the position of the drip irrigation channel 5, and a hole cover 21 is provided above the small hole.
[0022] The water basin 2 can be detached and placed in the area enclosed by the inner platform 8 and the large inner wall 6. The surface of the small inner wall 7 is provided with several drip irrigation channels 5 and water permeable holes 3.
[0023] The area enclosed by the small inner wall 7 can be used to store soil. To use, first fill the area with soil, then bury the seeds or plants. Next, place the water container 2 within the area enclosed by the inner platform 8 and the large inner wall 6. Pour water into the area enclosed by the outer ring 22, the inner ring 23, and the ring bottom 24. The inner ring 23 has a smaller diameter than the small inner wall 7, allowing water to flow downwards through the small holes on the ring bottom 24.
[0024] like Figure 2 , 4 As shown, the drip irrigation channel 5 is a hollow, long section extending vertically along the inner wall 7. Its upper end is level with the inner platform 8, and its lower end is close to the bottom of the inner wall 7, leaving a gap. Before adding water, the orifice cover 21 is closed; after adding water, the orifice cover 21 is opened, allowing water to flow from the small hole into the upper end of the drip irrigation channel 5 and then downwards along the inside of the channel to the lower end. Water circulates within the drip irrigation channel 5, preventing absorption by the upper soil layer. Water can penetrate the upper layer of soil cover and reach the lower soil layer, close to the plant roots, thus achieving drip irrigation from below. Because the water is in close contact with the plant roots, the plants can absorb water more quickly. The water absorption by the plant roots and the transpiration of the leaves cause water in the lower soil to move upwards, thus distributing the water evenly to other parts of the soil. Since the lower end of the drip irrigation channel 5 is close to the bottom of the inner wall 7 and leaves a gap, the lower soil layer can retain sufficient water, allowing the plant roots to absorb water more fully.
[0025] like Figure 4As shown, the permeable holes 3 are located above the lower end of the drip irrigation channel 5, distributed intermittently along the circumference of the inner wall 7. When the soil is saturated with water, the water flowing into the soil through the drip irrigation channel 5 will accumulate in the soil. When there is too much accumulated water, it can flow out through the permeable holes 3. The excess water that flows out accumulates at the bottom of the pot 1, and the amount of water accumulated can be judged using the transparent observation window 4. When using drip irrigation, if a lot of water accumulates from the permeable holes 3, close the hole cover 21 to stop drip irrigation; if using direct irrigation, water enters from the top of the soil, and if a lot of water accumulates from the permeable holes 3, stop irrigation. The observation window 4 can be removed from the bottom of the pot 1 to pour out and clean the excess water. Using the above method to control the amount of water in time prevents the plant roots from being wrapped in water for a long time, which can lead to root rot.
[0026] like Figure 3 As shown, the lower surface of the ring bottom 24 has a downward-facing protrusion 241 (the dotted line in the figure), which engages with the groove 81 on the upper surface of the inner platform 8. In use, the groove 81 and protrusion 241 are aligned and engaged to fix the relative position of the water basin 2 and the inner platform 8. At this time, the small hole on the ring bottom 24 is aligned with the upper end of the drip irrigation channel 5, allowing water to flow accurately into the drip irrigation channel 5 and preventing water waste.
[0027] 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 double-layered resin flowerpot, comprising a pot body (1), a water reservoir (2), and drainage holes (3), wherein a detachable transparent observation window (4) is provided on the bottom outer side of the pot body (1), characterized in that, The inner walls of the basin (1) have different diameters. The large inner wall (6) is located above the small inner wall (7), and the inner platform (8) is formed at the junction of the large inner wall (6) and the small inner wall (7). The water storage basin (2) is a hollow ring-shaped basin with an open top, including an outer ring (22), an inner ring (23), and a ring bottom (24). The diameter of the outer ring (22) is adapted to the large inner wall (6), and the diameter of the inner ring (23) is smaller than that of the small inner wall (7). The ring bottom (24) is provided with a small hole corresponding to the position of the drip irrigation channel (5), and a hole cover (21) is provided above the small hole. The water basin (2) can be detached and placed in the area enclosed by the inner platform (8) and the large inner wall (6). The surface of the small inner wall (7) is provided with several drip irrigation channels (5) and water permeable holes (3).
2. The double-layer resin flowerpot according to claim 1, characterized in that, The drip irrigation channel (5) is a hollow long section that extends vertically along the inner wall (7). Its upper end is level with the inner platform (8), and its lower end is close to the bottom of the inner wall (7) and retains a gap.
3. The double-layer resin flowerpot according to claim 1, characterized in that, The permeable holes (3) are located above the lower end of the drip irrigation channel (5), along the circumference of the inner wall (7), and are distributed at intervals with the drip irrigation channel (5).
4. The double-layer resin flowerpot according to claim 1, characterized in that, The lower surface of the ring bottom (24) is provided with a downward protrusion (241), which engages with the groove (81) on the upper surface of the inner platform (8).