Flower planting pot

By designing the base, hanging components, hydroponic components, and soil-growing components of the flower planting pot, the problem of single flower pots being unsuitable for mixed planting has been solved, realizing separate tray-style water and fertilizer management and improving the convenience of planting and managing different flowers.

CN224386288UActive Publication Date: 2026-06-23CHONGQING YUANXIN LANDSCAPING ENGINEERING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING YUANXIN LANDSCAPING ENGINEERING CO LTD
Filing Date
2025-06-05
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

Single flower pots are not suitable for mixed planting, and the mixed root systems of different flowers lead to inconsistent water and fertilizer requirements, making management extremely inconvenient.

Method used

A flower planting pot was designed, comprising a base, hanging components, hydroponic components, and soil-growing components. Combined with a ring-shaped pot, it enables separate planting and management, allowing for the separate planting of hydroponic and soil-grown plants, which can be suspended or placed on a shelf using hanging ropes.

Benefits of technology

It enables separate tray-based water and fertilizer management, adapting to the planting needs of different flowers and improving management convenience and plant adaptability to the growing environment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the horticultural flowerpot technical field, concretely relates to a flower planting pot, include: base body, the component of hanging, the component of hanging sets up in the top of the circumference side of base body, the component of water culture, the component of water culture sets up in the middle part of base body and is located the inside of the component of hanging, the component of soil culture, the component of soil culture sets up in the circumference side of base body and is located the outside of the component of hanging, annular pot, annular pot sets up in the bottom of base body, and annular pot top and the component of soil culture bottom interval arrangement, for solving the problem of monomer flowerpot not adapting to the matching planting of the tray, and because of different flowers, its root system is mixed, and the requirement for moisture, fertilizer is also not consistent, if the different kinds of flowers are planted in the monomer flowerpot, its management is extremely inconvenient.
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Description

Technical Field

[0001] This utility model belongs to the field of horticultural flower pot technology, specifically relating to a flower planting pot. Background Technology

[0002] Flower pots are important containers for planting flowers. After being filled with flowers and plants, they are often used as decorative items to adorn houses, parks, and other buildings or public places. Most flower pots used daily are single-unit pots, generally only suitable for planting one type of flower. However, for enthusiasts who like to grow different flowers in the same pot, single-unit pots are not suitable for mixed planting. Furthermore, because different flowers have mixed root systems and different requirements for water and fertilizer, managing different types of flowers mixed in a single pot is extremely inconvenient. Utility Model Content

[0003] Based on the problems mentioned in the background art above, this utility model provides a flower planting pot to solve the problem that single flower pots are not suitable for mixed planting, and that different flowers have mixed root systems and different requirements for water and fertilizer. If different kinds of flowers are planted in a single flower pot, the management is extremely inconvenient.

[0004] The technical solution adopted in this utility model is as follows:

[0005] A flower planting pot, comprising:

[0006] Matrix;

[0007] A mounting component is provided on the top periphery of the base;

[0008] A hydroponic component, wherein the hydroponic component is located in the middle of the base and inside the hanging component;

[0009] A soil-supporting component, wherein the soil-supporting component is disposed on the periphery of the base and located on the outside of the hanging component;

[0010] The annular basin is located at the bottom of the base, and the top of the annular basin is spaced apart from the bottom of the soil-cultivating component.

[0011] Based on the above technical solution, the present invention has made the following improvements:

[0012] Furthermore, the hanging component includes a mounting groove and a fixing plate. Multiple mounting grooves are provided and arranged in an array on the top periphery of the base. A connecting block is hinged in each mounting groove, and a lifting rope is hinged to one end of each connecting block. The fixing plate is located above the top of the base. One end of each lifting rope is connected to the bottom periphery of the fixing plate through a lifting lug. A hook is provided at the top center of the fixing plate.

[0013] Furthermore, the hydroponic component includes a card cavity and a water storage cavity, both of which are located in the middle of the base, with the card cavity located above and connected to the water storage cavity; a hydroponic box is installed inside the card cavity, with the bottom of the hydroponic box spaced apart from the bottom of the water storage cavity and having multiple through holes; a drain hole is provided at the bottom of the water storage cavity, and a plug is installed inside the drain hole.

[0014] Furthermore, a card slot is provided on the inner wall of the top opening of the card cavity, and a card block is provided on the outer wall of the top of the hydroponic box, the card block being engaged in the card slot.

[0015] Furthermore, the soil cultivation component includes a collar, and multiple collars are arranged in an array on the top periphery of the base. Each peripheral wall of the base located below the corresponding collar is provided with a support plate, and each support plate is provided with a soil cultivation pot. The upper part of each soil cultivation pot is respectively fitted into the corresponding collar.

[0016] Furthermore, each of the bearing plates is provided with a reinforcing rib between its bottom and the peripheral wall of the base, and each of the reinforcing ribs is provided with a drainage hole, one end of which penetrates the top wall of the bearing plate and the other end of which penetrates into the water storage cavity.

[0017] Furthermore, multiple air holes are arrayed on the peripheral wall of the substrate located below the bearing plate.

[0018] The beneficial effects of this utility model are:

[0019] 1. Through the combination of the substrate, hydroponic components, soil components, and ring-shaped pots, hydroponic plants can be grown in the hydroponic pots of the hydroponic components, different kinds of flowers can be grown in the soil pots of the soil components, and vines such as spider plants can be grown in the ring-shaped pots. Thus, different types of flowers and plants can be planted in separate trays in this planting pot, which can realize separate tray water and fertilizer management.

[0020] 2. Through the combination of the base, hanging components, and ring pot, the hanging components can suspend the entire planting pot, and the ring pot can also be used as the base of the entire planting pot, so that the entire planting pot can also be placed on the ground. Attached Figure Description

[0021] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings;

[0022] Figure 1 The present invention relates to the structure of a flower planting pot. Figure 1 ;

[0023] Figure 2 The present invention relates to the structure of a flower planting pot. Figure 2 ;

[0024] Figure 3This is a bottom structural diagram of a flower planting pot according to the present invention;

[0025] Figure 4 This is a cross-sectional view of a flower planting pot according to the present invention.

[0026] The attached diagram is labeled as follows:

[0027] 101. Substrate; 201. Cavity; 202. Water storage cavity; 203. Hydroponic box; 204. Through hole; 205. Slot; 206. Block; 207. Drain hole; 208. Plug; 209. Air hole; 301. Collar; 302. Support plate; 303. Reinforcing rib; 304. Drain hole; 305. Soil cultivation pot; 401. Ring pot; 501. Mounting groove; 502. Connecting block; 503. Lifting rope; 504. Fixing plate; 505. Lifting lug; 506. Hook. Detailed Implementation

[0028] like Figures 1-4 As shown, a flower planting pot includes:

[0029] Matrix 101;

[0030] The hanging component is located on the top periphery of the base 101. The hanging component includes a mounting groove 501 and a fixing plate 504. Multiple mounting grooves 501 are arranged in an array on the top periphery of the base 101. Each mounting groove 501 has a connecting block 502 hinged in it. One end of each connecting block 502 is hinged to a hanging rope 503. The hanging ropes 503 can be detached from the corresponding connecting block 502. The fixing plate 504 is located above the top of the base 101. One end of each hanging rope 503 is connected to the bottom periphery of the fixing plate 504 through a lifting lug 505. A hook 506 is provided at the top center of the fixing plate 504. The combination of the mounting grooves 501, connecting blocks 502, hanging ropes 503, lifting lugs 505, fixing plate 504 and hook 506 enables the planting pot to be suspended.

[0031] The hydroponic component is located in the middle of the base 101. The hydroponic component includes a retaining cavity 201 and a water storage cavity 202. Both the retaining cavity 201 and the water storage cavity 202 are located in the middle of the base 101 and are located between the inner sides of each mounting groove 501 in the hanging component. The water storage cavity 202 can be filled with water. The retaining cavity 201 is fitted with a hydroponic box 203. The retaining cavity 201 is located above the water storage cavity 202 and is connected to it, so that the bottom of the hydroponic box 203 can be immersed in the water in the water storage cavity 202. The hydroponic box 203 can be used to grow hydroponic flowers and plants.

[0032] A slot 205 is provided on the inner wall of the top opening of the cavity 201, and a block 206 is provided on the outer wall of the top of the hydroponic box 203. When the hydroponic box 203 is locked in the cavity 201, the block 206 is locked in the slot 205, which can play a vertical positioning role for the hydroponic box 203 and prevent the hydroponic box 203 from falling completely out of control into the cavity 201.

[0033] The bottom of the hydroponic box 203 is spaced apart from the bottom of the water storage cavity 202, and has multiple through holes 204. Cotton ropes can be threaded through the through holes 204 and inserted into the water in the water storage cavity 202, allowing water to seep into the hydroponic box 203 along the cotton ropes. The bottom of the water storage cavity 202 has a drain hole 207, and a plug 208 is installed in the drain hole 207. When it is necessary to replace the water in the water storage cavity 202, the plug 208 can be pulled downward from the drain hole 207 to open the drain hole 207 and drain the water in the water storage cavity 202.

[0034] The soil cultivation component is set on the periphery of the base 101. The soil cultivation component includes multiple collars 301, which are arranged in an array on the top periphery of the base 101 and located outside each mounting groove 501 in the hanging component. Each peripheral wall of the base 101 below the corresponding collar 301 is provided with a support plate 302. Each support plate 302 is provided with a soil cultivation pot 305. The upper part of each soil cultivation pot 305 is respectively fitted into the corresponding collar 301. The support plate 302 can hold the soil cultivation pot 305. The collar 301 can further limit and stabilize the soil cultivation pot 305 placed on the support plate 302, so that multiple soil cultivation pots 305 can be arranged in an array on the periphery of the base 101. Different kinds of flowers can be planted in each soil cultivation pot 305.

[0035] The ring-shaped pot 401 is set at the bottom of the base 101, and the top of the ring-shaped pot 401 is spaced apart from the bottom of the soil cultivation component. The ring-shaped pot 401 can be used to plant vine plants such as spider plants, so that different types of flowers and plants can be planted in separate trays in this planting pot, and separate tray water and fertilizer management can be realized. The ring-shaped pot 401 can also be used as the base of the entire planting pot, so that the entire planting pot can be placed on the ground.

[0036] Furthermore, each support plate 302 is provided with a reinforcing rib 303 between its bottom and the side wall of the base 101. Each reinforcing rib 303 is provided with a drainage hole 304. One end of the drainage hole 304 penetrates the top wall of the support plate 302, and the other end penetrates into the water storage cavity 202. The reinforcing rib 303 can enhance the load-bearing capacity of the support plate 302, and the drainage hole 304 can collect excess water seeping from the soil pot 305 into the water storage cavity 202, which can be used by the hydroponic plants in the hydroponic box 203.

[0037] Multiple air holes 209 are arrayed on the side wall of the substrate 101 located below the support plate 302. The air holes 209 are positioned slightly higher than the bottom of the hydroponic box 203. The air holes 209 allow air from outside the substrate 101 to enter the water storage cavity 202 to provide the air needed for the growth of hydroponic plant roots in the hydroponic box 203. In addition, the air holes 209 can also be used as drainage channels for excess water in the water storage cavity 202. When the water in the water storage cavity 202 overflows to the air holes 209, the excess water can flow out from the air holes 209 into the ring pot 401 to provide water for the growth of spider plants and other vines planted in the ring pot 401.

[0038] The present invention has been described in detail above. The specific embodiments are provided only to help understand the method and core idea of ​​the present invention. It should be noted that those skilled in the art can make various improvements and modifications to the present invention without departing from its principles, and these improvements and modifications also fall within the protection scope of the claims of the present invention.

Claims

1. A flower planting pot, characterized in that: include: Matrix (101); A mounting component is provided on the top periphery of the base (101); A hydroponic component, wherein the hydroponic component is disposed in the middle of the base (101) and located inside the hanging component; Soil-supported components are disposed on the periphery of the base (101) and located outside the hanging components; The annular basin (401) is located at the bottom of the base (101), and the top of the annular basin (401) is spaced apart from the bottom of the soil cultivation component.

2. The flower planting pot according to claim 1, characterized in that: The hanging component includes a mounting groove (501) and a fixing plate (504). Multiple mounting grooves (501) are provided and arranged in an array on the top periphery of the base (101). A connecting block (502) is hinged in each mounting groove (501), and a hanging rope (503) is hinged to one end of each connecting block (502). The fixing plate (504) is located above the top of the base (101). One end of each hanging rope (503) is connected to the bottom periphery of the fixing plate (504) through a lifting lug (505). A hook (506) is provided at the top center of the fixing plate (504).

3. A flower planting pot according to claim 1, characterized in that: The hydroponic component includes a cavity (201) and a water storage cavity (202). Both the cavity (201) and the water storage cavity (202) are located in the middle of the base (101), and the cavity (201) is located above the water storage cavity (202) and is connected through it. A hydroponic box (203) is installed in the cavity (201). The bottom of the hydroponic box (203) is spaced apart from the bottom of the water storage cavity (202) and has multiple through holes (204). A drain hole (207) is provided at the bottom of the water storage cavity (202), and a plug (208) is provided in the drain hole (207).

4. A flower planting pot according to claim 3, characterized in that: The inner wall of the top opening of the card cavity (201) is provided with a card groove (205), and the outer wall of the top of the hydroponic box (203) is provided with a card block (206), which is locked in the card groove (205).

5. A flower planting pot according to claim 1, characterized in that: The soil cultivation component includes a collar (301), and multiple collars (301) are arranged in an array on the top periphery of the base (101). Each side wall of the base (101) below the corresponding collar (301) is provided with a support plate (302), and each support plate (302) is provided with a soil cultivation pot (305). The upper part of each soil cultivation pot (305) is respectively fitted into the corresponding collar (301).

6. A flower planting pot according to claim 5, characterized in that: Each of the bearing plates (302) is provided with a reinforcing rib (303) between its bottom and the side wall of the base (101). Each of the reinforcing ribs (303) is provided with a drainage hole (304). One end of the drainage hole (304) penetrates the top wall of the bearing plate (302), and the other end penetrates into the water storage cavity (202).

7. A flower planting pot according to claim 5, characterized in that: Multiple air holes (209) are arrayed on the side wall of the substrate (101) located below the bearing plate (302).