A non-water accumulating flower pot tray
By designing a non-water-accumulating flowerpot tray, and utilizing a system of recesses, water collection areas, and water channels, the problem of water accumulation in flowerpot trays has been solved, improving the air permeability of potted plants and environmental hygiene, while saving labor resources.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 于大军
- Filing Date
- 2025-07-02
- Publication Date
- 2026-06-26
AI Technical Summary
Existing flowerpot trays are prone to water accumulation, leading to chronically wet potted soil, which can cause root rot and attract mosquitoes. Furthermore, they require frequent manual watering, which pollutes the environment.
Design a non-waterlogging flower pot tray, including a recess, a water collection area, a water guide groove, a connecting pipe and a water guide pipe. The support protrusion increases air permeability, the inclined surface guides water, the water in the collection area is discharged in time through the water guide groove, and the connecting pipe enables multiple trays to drain together.
It effectively prevents water accumulation in the tray, maintains the air permeability of potted plants, saves on manual watering, reduces environmental pollution, and achieves hygiene and resource conservation.
Smart Images

Figure CN224402347U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of flower pot tray technology, specifically relating to a non-water-accumulating flower pot tray. Background Technology
[0002] Currently, with the acceleration of urbanization and the popularization of green living concepts, home gardening and urban greening have become important ways for modern people to improve their quality of life. With the advocacy of a green environment, more and more flowers are being planted and grown in public places and homes, and potted plants are becoming more and more common. However, the problem of water accumulating in the trays of flower pots has become a core pain point restricting plant health. The water accumulated at the bottom of the tray will cause the potted soil to be too wet for a long time, inducing root rot and breeding mosquitoes such as Culex mosquitoes and fungal mosquitoes. In the current technology, the water in the tray is poured out manually. Therefore, there is a need for a flower pot tray that does not accumulate water. Utility Model Content
[0003] The purpose of this utility model is to overcome the shortcomings of the prior art and provide a non-water-accumulating flower pot tray, thus solving the problems mentioned in the background art.
[0004] The purpose of this utility model is achieved as follows: a non-water-accumulating flowerpot tray includes a tray body. A recess is provided on the upper surface of the tray body, and a water collection area is provided inside the recess. A water guide groove is connected to the water collection area. A connecting pipe is provided on the side wall of the tray body, communicating with the water guide groove. The connecting pipe is detachably connected to a water guide pipe. A supporting protrusion is provided inside the recess. The supporting protrusion increases the space between the flowerpot and the tray, improving air permeability. In use, the flowerpot is placed on top of the supporting protrusion. When watering, water leaking from the flowerpot can be stored in the water collection area. The water in the collection area flows through the water guide groove and the connecting pipe into the water guide pipe, promptly draining the water from the tray and preventing water accumulation or overflow. This saves labor, avoids environmental pollution, and maintains hygiene.
[0005] Furthermore, the water collection area is located in the middle of the recess, and the interior of the recess has an inclined surface whose height gradually decreases from the outer peripheral wall of the recess towards the water collection area. Because of the inclined surface, when water leaks from the flowerpot, the liquid can flow precisely into the water collection area along the inclined surface, preventing water from leaking out and soiling the flower stand and floor.
[0006] Furthermore, the supporting protrusion includes multiple protruding plates, all of which are fixedly disposed on the upper surface of the inclined surface. The water guide channel is formed between any two adjacent protruding plates, and the bottom surface of the water guide channel is flush with the bottom surface of the water collection area. By setting the water guide channel and the water collection area to be flush, the process of water flowing out of the water collection area through the water guide channel is smoother.
[0007] Furthermore, there are three water guiding channels, and the peripheral sidewall of the disc body has three arch bridge side channels corresponding to the water guiding channels. The connecting pipe head is fixedly installed inside the arch bridge side channel, and the outer end of the connecting pipe head is located inside the arch bridge side channel. The outer end of the connecting pipe head is detachably connected to a plug. The outer end of the water guiding pipe is detachably connected to a water storage tank.
[0008] In use, multiple trays of this invention can be placed on a flower stand or countertop. One of the water channels between the trays is connected by a connecting pipe, allowing for shared drainage and eliminating the need for manual emptying, thus keeping the flower stand or countertop clean. Multiple trays can be used in parallel. By collecting the water from the trays into a water storage tank (which can be a watering can), multiple trays can drain water together through the connecting pipe. The water is then recycled back into the watering can for reuse, saving water resources.
[0009] The beneficial effects of this invention are as follows: The supporting protrusion increases the space between the flowerpot and the tray, improving air permeability. In use, the flowerpot is placed on top of the supporting protrusion. When watering, water leaking from the flowerpot can be collected in the collection area. The water in the collection area flows through the water guide channel and connecting pipe into the water pipe, promptly draining the water from the tray and preventing water accumulation or overflow. This saves labor, avoids environmental pollution, and maintains hygiene. The inclined surface design ensures that when water leaks from the flowerpot, it flows precisely into the collection area, preventing spillage and soiling of the flower stand and floor. By setting the water guide channel and collection area to be level, the water flows out more smoothly. Multiple trays of this invention can be placed on a flower stand or tabletop, with one of the water guide channels connected to each other via a connecting pipe. This allows for shared drainage, preventing water accumulation in the trays, eliminating the need for manual emptying, and keeping the flower stand or tabletop clean. Attached Figure Description
[0010] Figure 1 This is a schematic diagram of the main structure of this utility model;
[0011] Figure 2 This is the utility model Figure 1 Enlarged view of A in the middle;
[0012] Figure 3 This is a three-dimensional structural schematic diagram of the present invention;
[0013] Figure 4 This is the utility model Figure 3 Enlarged view of B in the middle;
[0014] Figure 5 This is a schematic diagram of the usage state of this utility model.
[0015] In the diagram: 1. Disc, 2. Recess, 3. Water collection area, 4. Water guide channel, 5. Connecting pipe head, 6. Water guide pipe, 7. Support protrusion, 8. Inclined surface, 9. Arch bridge side channel, 10. Blockage, 11. Water storage tank. Detailed Implementation
[0016] The present invention will now be described in further detail with reference to the accompanying drawings. It should be noted that all directional terms such as up, down, front, back, left, and right appearing in the present invention are not intended to limit the present invention, but are only used to more clearly explain and interpret the present invention. Example
[0017] like Figure 1-5 As shown, this embodiment discloses a non-water-accumulating flowerpot tray, which includes a tray body 1. A recess 2 is provided on the upper surface of the tray body 1. A water collection area 3 is provided inside the recess 2. A water guide groove 4 is connected to the water collection area 3. A connecting pipe 5, communicating with the water guide groove 4, is provided on the side wall of the tray body 1. The connecting pipe 5 is detachably connected to a water guide pipe 6. A supporting protrusion 7 is provided inside the recess 2. The supporting protrusion 7 increases the space between the flowerpot and the tray, improving air permeability. In use, the flowerpot is placed on top of the supporting protrusion 7. When watering, water leaking from the flowerpot can be stored in the water collection area 3. The water in the water collection area 3 flows through the water guide groove 4 and the connecting pipe 5 into the water guide pipe 6, promptly draining the water from the tray and preventing water accumulation or overflow. This saves labor, avoids environmental pollution, and maintains hygiene. Example
[0018] like Figure 1-5 As shown, this embodiment discloses a non-water-accumulating flowerpot tray, which includes a tray body 1. A recess 2 is provided on the upper surface of the tray body 1. A water collection area 3 is provided inside the recess 2. A water guide groove 4 is connected to the water collection area 3. A connecting pipe 5, communicating with the water guide groove 4, is provided on the side wall of the tray body 1. The connecting pipe 5 is detachably connected to a water guide pipe 6. A supporting protrusion 7 is provided inside the recess 2. The supporting protrusion 7 increases the space between the flowerpot and the tray, improving air permeability. In use, the flowerpot is placed on top of the supporting protrusion 7. When watering, water leaking from the flowerpot can be stored in the water collection area 3. The water in the water collection area 3 flows through the water guide groove 4 and the connecting pipe 5 into the water guide pipe 6, promptly draining the water from the tray and preventing water accumulation or overflow. This saves labor, avoids environmental pollution, and maintains hygiene.
[0019] For better results, the water collection area 3 is located in the middle of the recess 2. The interior of the recess 2 has an inclined surface 8, the height of which gradually decreases from the outer peripheral wall of the recess 2 toward the water collection area 3. With the inclined surface 8, when water leaks from the flowerpot, the liquid can flow precisely into the water collection area 3 along the inclined surface 8, preventing water from leaking out and soiling the flower stand and floor.
[0020] For better results, the supporting protrusion 7 includes multiple protruding plates, all of which are fixedly disposed on the upper surface of the inclined surface 8. The water guide channel 4 is opened between any two adjacent protruding plates, and the bottom surface of the water guide channel 4 is flush with the bottom surface of the water collection area 3. By setting the water guide channel 4 and the water collection area 3 to be flush, the process of water flowing out of the water collection area 3 through the water guide channel 4 is smoother.
[0021] For better results, there are three water channels 4. The peripheral wall of the tray 1 has three arched side channels 9 corresponding to the water channels 4. The connecting pipe 5 is fixedly installed inside the arched side channel 9, with its outer end located inside the arched side channel 9. A plug 10 is detachably connected to the outer end of the connecting pipe 5. A water storage tank 11 is detachably connected to the outer end of the water pipe 6. In use, multiple trays of this invention can be placed on a flower stand or table. One of the water channels 4 between the multiple trays is connected by a connecting pipe, allowing for common drainage, eliminating the need for manual emptying, and keeping the flower stand or table clean. Multiple trays can be used in parallel. By collecting the water in the trays into the water storage tank 11 (which can be a watering can), multiple trays can drain water together through the connecting pipe. The water is then recycled back into the watering can for reuse, saving water resources.
[0022] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and concept of this utility model, should be included within the scope of protection of this utility model.
Claims
1. A non-water-accumulating flowerpot tray, comprising a tray body, characterized in that: The upper surface of the disc is provided with a recess, the interior of the recess is provided with a water collection area, the water collection area is connected to a water guide groove, the side wall of the disc is provided with a connecting pipe end connected to the water guide groove, the connecting pipe end is detachably connected to a water guide pipe, and the interior of the recess is provided with a support protrusion. The water collection area is located in the middle of the concave part, and the interior of the concave part is provided with an inclined surface. The height of the inclined surface gradually decreases from the outer peripheral wall of the concave part toward the water collection area. The supporting protrusion includes multiple protruding plates, all of which are fixedly disposed on the upper surface of the inclined surface. The water guiding channel is formed between any two adjacent protruding plates, and the bottom surface of the water guiding channel is flush with the bottom surface of the water collection area. There are three water guide channels. The peripheral side wall of the disc body is provided with three arch bridge side channels corresponding to the water guide channels. The connecting pipe head is fixedly installed inside the arch bridge side channel, and the outer end of the connecting pipe head is located inside the arch bridge side channel. The outer end of the connecting pipe head is detachably connected to a plug.
2. The non-water-accumulating flowerpot tray according to claim 1, characterized in that: The outer end of the water pipe is detachably connected to a water storage tank.