A landscape ecological pond

By installing transparent secondary pool support cabinets and an automatic water replenishment system in the landscape ecological pond, the problem of tourists having difficulty identifying specific aquatic organisms has been solved, thus improving the quality of science education and viewing experience.

CN224440096UActive Publication Date: 2026-07-03MENGCAO ECOLOGICAL ENVIRONMENT (GRP) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
MENGCAO ECOLOGICAL ENVIRONMENT (GRP) CO LTD
Filing Date
2025-06-26
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

The existing landscape ecological ponds contain a variety of organisms, making it difficult for visitors to quickly identify specific species, which reduces the quality of science education and the viewing experience.

Method used

Multiple auxiliary pool support cabinets are installed on the outer wall of the landscape ecological pond. The auxiliary pools are equipped with transparent partition structures and water level sensors. The water level sensors control the delivery pump to automatically replenish water. Guide plates and filter screens are set up to facilitate observation and aquaculture management.

Benefits of technology

This allows tourists to directly observe and identify the living habits of specific aquatic organisms, improving the effectiveness of science education and the viewing experience. At the same time, the automatic water replenishment system reduces human intervention and improves management efficiency.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

This utility model belongs to the field of landscape ecological ponds, and particularly relates to a landscape ecological pond, including a landscape ecological pond with multiple auxiliary pond support cabinets installed in a circular pattern on the outer wall of the landscape ecological pond; auxiliary ponds, installed on top of the auxiliary pond support cabinets; and a partition structure set on top of the auxiliary ponds. In this utility model, staff can raise various aquatic organisms and plant ornamental plants such as lotus flowers in the landscape ecological pond for tourists to enjoy, or raise a single aquatic organism independently in the auxiliary ponds. The auxiliary ponds are completely transparent, so that tourists or staff can directly observe the living habits and growth status of a certain organism in the auxiliary ponds. The first and second baffles prevent tourists' hands from reaching into the auxiliary ponds, and the aquatic organisms in the auxiliary ponds can be fed through the feeding hole on the second baffle.
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Description

Technical Field

[0001] This utility model belongs to the field of landscape ecological ponds, and in particular relates to a landscape ecological water pond. Background Technology

[0002] Landscape ecological ponds, as a type of water landscape facility that combines ecological functions and aesthetic value, are widely used in urban parks, tourist attractions, and other places. By introducing aquatic organisms such as fish, turtles, and frogs, as well as aquatic plants such as lotus and water lilies, a small ecosystem is formed in the pond.

[0003] Existing landscape ecological ponds typically employ a mixed aquaculture model, making it difficult for visitors to quickly identify specific species. Furthermore, the pond walls are labeled with informational tags about the aquatic organisms, but due to the mixed activity of various organisms within the pond, visitors struggle to quickly and accurately match the textual descriptions with the specific organisms, significantly reducing the effectiveness of science education and the quality of the viewing experience. Summary of the Invention

[0004] (a) Technical problems to be solved

[0005] This utility model provides a landscape ecological water pool to solve the following problems.

[0006] 1. Existing landscape ecological ponds have labels with brief introductions to aquatic organisms on the pond walls. However, when visitors read the information on the labels, it is difficult to quickly and accurately match the text descriptions with the specific organisms due to the mixed activities of various organisms in the pond. This greatly reduces the effectiveness of science education and the quality of the viewing experience.

[0007] (II) Technical Content

[0008] To achieve the above objectives, this utility model provides the following technical solution:

[0009] A landscape ecological pond includes a landscape ecological pond, the outer wall of which is circumferentially equipped with multiple auxiliary pond support cabinets, and each of the multiple auxiliary pond support cabinets is equipped with a first delivery pump.

[0010] The auxiliary tank is installed on top of the auxiliary tank support cabinet;

[0011] A water level sensor is installed on the inner wall of the auxiliary tank, and the water level sensor is electromechanically connected to the first delivery pump below the auxiliary tank.

[0012] The water storage plate is fixedly installed on the outer wall of the landscape ecological pond in a circular shape, and the water storage plate is located between two adjacent auxiliary pond support cabinets. The water storage plate is hollow inside. The water inlet of the first conveying pump in the auxiliary pond support cabinet is connected to the corresponding water storage plate, and the water outlet is connected to the auxiliary pond on its top.

[0013] A partition structure is installed at the top of the secondary pool to prevent visitors' hands from extending into the secondary pool.

[0014] Furthermore, the outer wall of the landscape ecological pond is equipped with multiple mounting slots in a circular pattern, and the auxiliary pond support cabinet is fixedly connected to the mounting slots.

[0015] Furthermore, the number of water storage plates and the number of auxiliary tank support cabinets are the same and correspond one-to-one;

[0016] A guide plate is provided at the bottom of the inner cavity of the water storage plate, and the upper surface of the guide plate is inclined. The first conveying pump is equipped with an inlet pipe and a drain pipe.

[0017] The free end of the inlet pipe passes through the corresponding water storage plate and extends into it, with the end located above the lowest surface of the guide plate. A pressure relief hole is provided on the top side of the water storage plate away from the lowest surface of the guide plate.

[0018] The free end of the drain pipe is connected to the corresponding auxiliary pool.

[0019] Furthermore, a first drainage groove is provided on the inner wall of the secondary pool, and a first filter screen is provided on the inner wall of the first drainage groove. A drain faucet is provided on the secondary pool, and the water inlet end of the drain faucet is connected to the first drainage groove.

[0020] Furthermore, the auxiliary pool body is semi-cylindrical, and the partition structure includes a first baffle and a second baffle. The two sides of the first baffle are fixedly connected to the top of the auxiliary pool body by bolts. The first baffle has an interlayer. The first baffle is rotatably connected to the second baffle, and part of the second baffle is located in the interlayer.

[0021] The second baffle in the interlayer has several feeding holes.

[0022] Furthermore, the first stop cap is symmetrically provided with shaft limiting grooves, and the bottom side of the second stop cap is symmetrically fixed with a snap-fit ​​shaft, which is rotatably connected in the corresponding shaft limiting groove.

[0023] Furthermore, a pressure plate is integrally provided on one side of the top of the second stop cap;

[0024] The secondary pool body, the first barrier cap, and the second barrier cap are all transparent.

[0025] Furthermore, the outer wall of the secondary pool is provided with positioning grooves for attaching labels.

[0026] Furthermore, a viewing window is provided on the outer wall of the water storage plate, with the bottom of the viewing window corresponding to the upper surface of the guide plate.

[0027] Furthermore, a second drainage ditch is provided at the bottom of the landscape ecological pond, and a second filter screen is installed on the inner wall of the second drainage ditch.

[0028] A water purifier and a control unit are installed on one side of the landscape ecological pond. A first pump is electrically connected to one side of the water purifier, and the inlet of the first pump is connected to the second drainage trough.

[0029] The control host is electrically connected to a second delivery pump. The inlet of the second delivery pump is connected to the outlet of the water purifier. The second delivery pump has multiple outlets. A first delivery water pipe is fixedly connected to the highest surface of multiple guide plates. One end of the first delivery water pipe is connected to the interior of the corresponding water storage plate, and the other end is connected to the outlet of the second delivery pump.

[0030] One side of the landscape ecological pond is connected to a second water delivery pipe, and the other end of the second water delivery pipe is connected to the drainage end of the second delivery pump.

[0031] The inlet of the second pump is also connected to a third water pipe. The third water pipe is equipped with a valve and its free end is connected to an external water source.

[0032] The first delivery pump, water level sensor, and water purifier are all connected to the control host via signal transmission.

[0033] (III) Beneficial Effects

[0034] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0035] I. In this utility model, staff can raise various aquatic organisms (such as fish, turtles, frogs, etc.) and plant ornamental plants such as lotus flowers in the landscape ecological pond for tourists to enjoy. At the same time, staff can also raise a single aquatic organism (such as specific fish fry or frog fry) independently in the secondary pond. The secondary pond is completely transparent so that tourists or staff can directly observe the living habits and growth status of a certain organism in the secondary pond.

[0036] Second, in this utility model, the staff can pull the pressure plate to drive the second stop cap to rotate around the axis of the snap-fit ​​shaft. The pressure plate drives the second stop cap to rotate clockwise. As the second stop cap rotates, the side wall of the second stop cap will contact the upper surface of the landscape ecological pool, thereby covering the secondary pool and preventing tourists' hands from extending into the secondary pool.

[0037] At the same time, as the second cap rotates clockwise, the part of the cap located in the interlayer is rotated out, thereby turning the feeding hole out of the interlayer. The feeding hole ensures that the auxiliary pool can exchange gases with the outside air, and visitors can also feed the animals through the feeding hole.

[0038] Third, in this utility model, when the water level in the auxiliary tank is lower than the low detection point of the water level sensor, the water level sensor will send an electrical signal to the first delivery pump. At this time, the first delivery pump will start and draw water from the inner cavity of the water storage plate through the inlet pipe and discharge it into the auxiliary tank through the drain pipe to replenish the auxiliary tank. When the water level is higher than the high detection point of the water level sensor, the water level sensor will send an electrical signal to the first delivery pump again. At this time, the first delivery pump will stop working, and there is no need for staff to frequently replenish the water in multiple auxiliary tanks.

[0039] Fourth, in this utility model, by setting the upper surface of the guide plate to be inclined, the water in the inner cavity of the water storage plate flows directionally from the high surface to the low surface of the upper surface of the guide plate under the action of gravity. The free end of the water inlet pipe passes through the corresponding water storage plate and extends into its interior, and the end is located above the lowest surface of the guide plate, so that the first conveying pump can fully extract the water in the inner cavity of the water storage plate through the water inlet pipe.

[0040] V. In this utility model, a viewing window is provided on the outer wall of the water storage plate, and the bottom of the viewing window corresponds to the upper surface of the guide plate, so that the staff can intuitively observe the remaining water in the water storage plate.

[0041] VI. In this utility model, the first and second filter screens can effectively intercept aquatic organisms during the drainage process. Attached Figure Description

[0042] Figure 1 This is a three-dimensional schematic diagram of the present invention in use;

[0043] Figure 2 This is a schematic diagram of the auxiliary pool support cabinet in the open state in this utility model;

[0044] Figure 3 for Figure 2 A magnified view of a portion of point A in the middle;

[0045] Figure 4 This is an exploded view of the second drainage channel and the second filter screen in this utility model;

[0046] Figure 5 This is a partial cross-sectional view of the water storage plate in this utility model;

[0047] Figure 6 This is a partial cross-section of the auxiliary pool body and an exploded view of the first drainage trough and the first filter screen in this utility model;

[0048] Figure 7 for Figure 6 A magnified view of a portion of point B in the middle;

[0049] Figure 8This is a schematic diagram of the first stop cap in this utility model;

[0050] Figure 9 This is a cross-sectional view of the first stop cap in this utility model;

[0051] Figure 10 This is a bottom view of the entire utility model;

[0052] Figure 11 This is a schematic diagram of the water purifier and the first pump in this utility model.

[0053] In the diagram: 1. Landscape ecological pond; 101. Second drainage trough; 2. Auxiliary pond support cabinet; 3. First delivery pump; 301. Inlet pipe; 302. Drainage pipe; 4. Auxiliary pond; 401. First drainage trough; 402. Positioning groove; 5. Water level sensor; 6. Water storage plate; 601. Viewing window; 602. Pressure relief hole; 7. Mounting slot; 8. Guide plate; 9. First filter screen; 10. Drain faucet; 11. First baffle cap; 1101. Interlayer; 1102. Shaft limiting groove; 1103. Snap-fit ​​shaft; 12. Second baffle cap; 1201. Feeding through hole; 1202. Pressure plate; 13. Second filter screen; 14. Water purifier; 15. Control host; 16. First pump; 17. Second delivery pump; 18. First delivery water pipe; 19. Second delivery water pipe; 20. Third delivery water pipe. Detailed Implementation

[0054] 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.

[0055] Example 1

[0056] like Figures 1-11 As shown, a landscape ecological pond includes a landscape ecological pond 1. Staff can raise various aquatic organisms (such as fish, turtles, frogs, etc.) and plant ornamental plants such as lotus flowers in the landscape ecological pond 1 for visitors to enjoy. The outer wall of the landscape ecological pond 1 is equipped with multiple auxiliary pond support cabinets 2 arranged in a circular pattern. Figure 3 As shown, each of the multiple auxiliary pool support cabinets 2 is equipped with a first delivery pump 3;

[0057] Sub-tank 4 is installed on top of sub-tank support cabinet 2, specifically as follows: Figure 4As shown, the outer wall of the landscape ecological pond 1 is circularly equipped with multiple mounting slots 7, and the auxiliary pond support cabinet 2 is fixedly connected to the mounting slots 7. Staff can independently raise a single aquatic organism (such as specific fish fry or frog fry) in the auxiliary pond 4. The auxiliary pond 4 is completely transparent, allowing visitors or staff to directly observe the living habits and growth status of a particular organism within it. The outer wall of the auxiliary pond 4 has positioning slots 402 for attaching labels, allowing staff to affix informational labels to the slots 402 so that visitors can learn about the corresponding organism.

[0058] Furthermore, the number of water storage plates 6 and the number of auxiliary tank support cabinets 2 are the same and correspond one-to-one;

[0059] like Figure 6 As shown, a water level sensor 5 is installed on the inner wall of the auxiliary tank 4. The water level sensor 5 is electrically connected to the first conveying pump 3 below the auxiliary tank 4. The water level sensor 5 can sense and detect the water level in the auxiliary tank 4. The working principle of the water level sensor 5 is existing technology and will not be described in detail here.

[0060] like Figure 1 As shown, a water storage plate 6 is fixedly installed in a circular pattern on the outer wall of the landscape ecological pond 1, and the water storage plate 6 is located between two adjacent auxiliary pond support cabinets 2. The water storage plate 6 is hollow inside. The inlet end of the first conveying pump 3 in the auxiliary pond support cabinet 2 is connected to the corresponding water storage plate 6, and the outlet end is connected to the auxiliary pond 4 on top of it, specifically as follows: Figure 3 and Figure 5 As shown, a guide plate 8 is provided at the bottom of the inner cavity of the water storage plate 6, and the first conveying pump 3 is provided with an inlet pipe 301 and a drain pipe 302. A pressure relief hole 602 is provided on the side of the top of the water storage plate 6 away from the lowest surface of the guide plate 8. The pressure relief hole 602 can ensure the air pressure balance inside the water storage plate 6 and ensure that the water inside the water storage plate 6 can be pumped out.

[0061] like Figure 3 and Figure 6 As shown, the free end of the drain pipe 302 is connected to the corresponding auxiliary pool body 4.

[0062] Specifically, a low-level detection point and a high-level detection point are set on the water level sensor 5.

[0063] When the water level in the secondary tank 4 is lower than the low detection point of the water level sensor 5, the water level sensor 5 will send an electrical signal to the first delivery pump 3. At this time, the first delivery pump 3 will start and draw water from the inner cavity of the water storage plate 6 through the water inlet pipe 301, and discharge it into the secondary tank 4 through the drain pipe 302 to replenish the secondary tank 4. When the water level is higher than the high detection point of the water level sensor 5, the water level sensor 5 will send an electrical signal to the first delivery pump 3 again. At this time, the first delivery pump 3 will stop working, and there is no need for the staff to frequently replenish the water in the multiple secondary tanks 4.

[0064] The upper surface of the guide plate 8 is inclined. By setting the upper surface of the guide plate 8 to be inclined, the water in the inner cavity of the water storage plate 6 flows directionally from the high surface to the low surface of the upper surface of the guide plate 8 under the action of gravity. The free end of the water inlet pipe 301 passes through the corresponding water storage plate 6 and extends into its interior, and the end is located above the lowest surface of the guide plate 8, so that the first conveying pump 3 can fully extract the water in the inner cavity of the water storage plate 6 through the water inlet pipe 301.

[0065] Furthermore, such as Figure 5 As shown, a viewing window 601 is provided on the outer wall of the water storage plate 6. The bottom of the viewing window 601 corresponds to the upper surface of the guide plate 8, so that the staff can intuitively observe the remaining water in the water storage plate 6.

[0066] The landscape ecological pool also includes a partition structure installed on top of the secondary pool body 4. This partition structure is used to prevent visitors' hands from extending into the secondary pool body 4. Specifically, it includes: Figure 1 As shown, the secondary pool body 4 is semi-cylindrical, and the partition structure includes a first baffle cap 11 and a second baffle cap 12. The two sides of the first baffle cap 11 are fixedly connected to the top of the secondary pool body 4 by bolts. Figure 8 and Figure 9 As shown, the first baffle cap 11 has a sandwich layer 1101, and the first baffle cap 11 is rotatably connected to the second baffle cap 12, with part of the cap body of the second baffle cap 12 located in the sandwich layer 1101. The second baffle cap 12 located in the sandwich layer 1101 has several feeding through holes 1201. Specifically, the first baffle cap 11 has symmetrical shaft limiting grooves 1102, and the bottom side of the second baffle cap 12 is symmetrically fixed with a snap-fit ​​shaft 1103, which is rotatably connected in the corresponding shaft limiting groove 1102.

[0067] Furthermore, such as Figure 9 As shown, a pressure plate 1202 is integrally provided on the top side of the second stop cap 12, so that the operator can pull the pressure plate 1202 to drive the second stop cap 12 to rotate around the axis of the snap-fit ​​shaft 1103 as the rotation center.

[0068] The first and second shields 11 and 12 are completely transparent so that visitors or staff can observe the secondary pool 4.

[0069] In use, staff can pull the pressure plate 1202 to rotate the second stop cap 12 around the axis of the snap-fit ​​shaft 1103. The pressure plate 1202 drives the second stop cap 12 to rotate clockwise. As the second stop cap 12 rotates, its side wall will contact the upper surface of the landscape ecological pool 1, thereby covering the secondary pool 4 and preventing visitors' hands from extending into the secondary pool 4.

[0070] At the same time, as the second baffle 12 rotates clockwise, part of the second baffle 12 located in the interlayer 1101 will be rotated out, thereby rotating the feeding through hole 1201 out of the interlayer 1101. The feeding through hole 1201 can ensure that the auxiliary pool 4 can exchange gases with the outside air, and tourists can also feed through the feeding through hole 1201.

[0071] Example 2

[0072] like Figures 1-11 As shown, this embodiment is improved upon embodiment one as follows: Further, as... Figure 7 As shown, the inner wall of the auxiliary pool 4 is provided with a first drainage groove 401, the inner wall of the first drainage groove 401 is provided with a first filter screen 9, and the auxiliary pool 4 is provided with a drain faucet 10, the water inlet end of the drain faucet 10 is connected to the first drainage groove 401.

[0073] When cleaning the secondary pool 4, the staff needs to remove the aquatic organisms raised in the secondary pool 4. Before removing them, the first conveying pump 3 and the water level sensor 5 are turned off. Then, the bolts on both sides of the first baffle cap 11 are removed, the baffle structure is removed from the top of the secondary pool 4, and then the drain faucet 10 is opened to drain some of the water in the secondary pool 4, thereby reducing the amount of water in the secondary pool 4 so that the staff can catch them. The first filter screen 9 can effectively intercept aquatic organisms during the drainage process and prevent them from being discharged along the drain faucet 10.

[0074] Example 3

[0075] like Figures 1-11 As shown, this embodiment is improved upon embodiment one as follows: Further, as... Figure 4 As shown, a second drainage trough 101 is provided at the bottom of the landscape ecological pond 1, and a second filter screen 13 is provided on the inner wall of the second drainage trough 101.

[0076] Combination Figure 1 , Figure 5 , Figure 10 and Figure 11A water purifier 14 and a control host 15 are installed on one side of the landscape ecological pond 1. A first pump 16 is electrically connected to one side of the water purifier 14. The inlet of the first pump 16 is connected to the second drainage trough 101. The first pump 16 draws water from the landscape ecological pond 1 and transports it to the water purifier 14, where the water purifier 14 purifies the water. The second filter screen 13 prevents aquatic organisms from flowing into the first pump 16.

[0077] The control host 15 is electrically connected to the second delivery pump 17. The water inlet of the second delivery pump 17 is connected to the drain outlet of the water purifier 14. The second delivery pump 17 is provided with multiple drain outlets. The highest surface of each of the multiple guide plates 8 is fixedly connected to a first delivery water pipe 18. One end of the first delivery water pipe 18 is connected to the interior of the corresponding water storage plate 6, and the other end is connected to the drain outlet of the second delivery pump 17.

[0078] When a water storage plate 6 needs to be replenished, the second delivery pump 17 is controlled by the control host 15. The second delivery pump 17 draws water from the water purifier 14 and replenishes the water storage plate 6 through the corresponding first delivery water pipe 18. The first delivery water pipe 18 can discharge water from the highest surface of the guide plate 8, so that the water can flow from the high surface to the low surface on the upper surface of the guide plate 8, so that the water is evenly distributed in the entire inner cavity of the water storage plate 6, thereby improving the water replenishment efficiency.

[0079] One side of the landscape ecological pond 1 is connected to a second water delivery pipe 19, and the other end of the second water delivery pipe 19 is connected to the drainage end of the second delivery pump 17. When it is necessary to replenish water to the landscape ecological pond 1, the second delivery pump 17 can replenish water to the landscape ecological pond 1 through the second water delivery pipe 19.

[0080] The inlet end of the second pump 17 is also connected to the third water pipe 20. The third water pipe 20 is equipped with a valve, and the free end of the third water pipe 20 is connected to an external water source. When the valve on the third water pipe 20 is opened, the second pump 17 can pump water from the external water source through the third water pipe 20 to provide auxiliary water replenishment for the landscape ecological pond 1 and the water storage plate 6.

[0081] The first delivery pump 3, the water level sensor 5, and the water purifier 14 are all connected to the control host 15 via signal transmission, so that the control host 15 can regulate the first delivery pump 3, the water level sensor 5, and the water purifier 14.

[0082] In summary, the workflow of this utility model is as follows:

[0083] When the landscape ecological pond 1 is open to tourists, staff need to pull the pressure plate 1202 to make the second baffle 12 rotate around the axis of the snap-fit ​​shaft 1103. The pressure plate 1202 makes the second baffle 12 rotate clockwise. As the second baffle 12 rotates, its side wall will contact the upper surface of the landscape ecological pond 1, thereby covering the secondary pond 4 and preventing tourists' hands from extending into the secondary pond 4.

[0084] At the same time, as the second baffle 12 rotates clockwise, part of the second baffle 12 located in the interlayer 1101 will be rotated out, thereby rotating the feeding through hole 1201 out of the interlayer 1101. The feeding through hole 1201 can ensure that the auxiliary pool 4 can exchange gases with the outside air, and tourists can also feed through the feeding through hole 1201.

[0085] During use, when the water level in the auxiliary tank 4 is lower than the low detection point of the water level sensor 5, the water level sensor 5 will send an electrical signal to the first delivery pump 3. At this time, the first delivery pump 3 will start and draw water from the inner cavity of the water storage plate 6 through the water inlet pipe 301, and discharge it into the auxiliary tank 4 through the drain pipe 302 to replenish the auxiliary tank 4. When the water level is higher than the high detection point of the water level sensor 5, the water level sensor 5 will send an electrical signal to the first delivery pump 3 again, at which time the first delivery pump 3 will stop working.

[0086] When a water storage plate 6 needs to be replenished, the second delivery pump 17 is controlled by the control host 15. The second delivery pump 17 draws water from the water purifier 14 and replenishes the water storage plate 6 through the corresponding first delivery water pipe 18. The first delivery water pipe 18 can discharge water from the highest surface of the guide plate 8, so that the water can flow from the high surface to the low surface on the upper surface of the guide plate 8, and the water can be evenly distributed in the entire inner cavity of the water storage plate 6.

[0087] When it is necessary to replenish water to the landscape ecological pond 1, the second delivery pump 17 can replenish water to the landscape ecological pond 1 through the second delivery water pipe 19;

[0088] The inlet end of the second pump 17 is also connected to the third water supply pipe 20. The third water supply pipe 20 is equipped with a valve, and the free end of the third water supply pipe 20 is connected to an external water source. When the valve on the third water supply pipe 20 is opened, the second pump 17 can pump water from the external water source through the third water supply pipe 20 to provide auxiliary water replenishment for the landscape ecological pond 1 and the water storage plate 6.

[0089] However, as is well known to those skilled in the art, the working principles and wiring methods of the first delivery pump 3, water level sensor 5, water purifier 14, control host 15, first pump 16 and second delivery pump 17 are commonplace and belong to conventional means or common knowledge. Therefore, they will not be described in detail here. Those skilled in the art can make any selections according to their needs or convenience.

[0090] The different embodiments described above can be combined, substituted, or used in combination with each other.

[0091] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0092] 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 landscape ecological pond, characterized in that: The landscape ecological pond (1) includes a landscape ecological pond (1) with multiple auxiliary pond support cabinets (2) installed in a circular pattern on the outer wall of the landscape ecological pond (1), and a first conveying pump (3) is installed in each of the multiple auxiliary pond support cabinets (2). The auxiliary pool body (4) is installed on top of the auxiliary pool body support cabinet (2); A water level sensor (5) is installed on the inner wall of the auxiliary pool (4), and the water level sensor (5) is electrically connected to the first delivery pump (3) below the auxiliary pool (4). A water storage plate (6) is fixedly installed in a circular shape on the outer wall of the landscape ecological pond (1) and the water storage plate (6) is located between two adjacent auxiliary pond support cabinets (2). The water storage plate (6) is hollow inside. The inlet end of the first conveying pump (3) in the auxiliary pond support cabinet (2) is connected to the corresponding water storage plate (6), and the outlet end is connected to the auxiliary pond (4) on its top. A partition structure is set at the top of the secondary pool body (4) to prevent tourists' hands from extending into the secondary pool body (4).

2. The landscape ecological pond according to claim 1, characterized in that: The outer wall of the landscape ecological pond (1) is provided with multiple mounting slots (7) in a circular shape, and the auxiliary pond support cabinet (2) is fixedly connected to the mounting slots (7).

3. The landscape ecological pond according to claim 2, characterized in that: The number of water storage plates (6) and the number of auxiliary pool support cabinets (2) are the same and correspond one-to-one; The bottom of the inner cavity of the water storage plate (6) is provided with a guide plate (8), the upper surface of the guide plate (8) is inclined, and the first conveying pump (3) is provided with an inlet pipe (301) and a drain pipe (302). The free end of the water inlet pipe (301) passes through the corresponding water storage plate (6) and extends into it, with the end located above the lowest surface of the guide plate (8). A pressure relief hole (602) is provided on the side of the top of the water storage plate (6) away from the lowest surface of the guide plate (8). The free end of the drain pipe (302) is connected to the corresponding secondary pool body (4).

4. The landscape ecological pond according to claim 3, characterized in that: The inner wall of the sub-pool (4) is provided with a first drainage groove (401), and the inner wall of the first drainage groove (401) is provided with a first filter screen (9). The sub-pool (4) is provided with a drain faucet (10), and the water inlet end of the drain faucet (10) is connected to the first drainage groove (401).

5. The landscape ecological pond according to claim 3, characterized in that: The sub-pool body (4) is semi-cylindrical. The partition structure includes a first baffle cap (11) and a second baffle cap (12). The two sides of the first baffle cap (11) are fixedly connected to the top of the sub-pool body (4) by bolts. The first baffle cap (11) has an interlayer (1101). The first baffle cap (11) is rotatably connected to the second baffle cap (12), and part of the cap body of the second baffle cap (12) is located in the interlayer (1101). Among them, the second baffle (12) located in the interlayer (1101) has several feeding through holes (1201).

6. The landscape ecological pond according to claim 5, characterized in that: The first stop cap (11) is symmetrically provided with shaft limiting grooves (1102), and the bottom side of the second stop cap (12) is symmetrically fixed with a snap-fit ​​shaft (1103), which is rotatably connected in the corresponding shaft limiting groove (1102).

7. The landscape ecological pond according to claim 6, characterized in that: The second stop cap (12) has a pressure plate (1202) integrally provided on one side top. The sub-pool body (4), the first baffle (11), and the second baffle (12) are all transparent.

8. The landscape ecological pond according to claim 6, characterized in that: The outer wall of the sub-pool (4) is provided with a positioning groove (402) for pasting labels.

9. The landscape ecological pond according to claim 3, characterized in that: The outer wall of the water storage plate (6) is provided with a viewing window (601), and the bottom of the viewing window (601) corresponds to the upper surface of the guide plate (8).

10. The landscape ecological pond according to claim 3, characterized in that: The bottom of the landscape ecological pond (1) is provided with a second drainage trough (101), and the inner wall of the second drainage trough (101) is provided with a second filter screen (13). A water purifier (14) and a control host (15) are provided on one side of the landscape ecological pond (1). A first pump (16) is electrically connected to one side of the water purifier (14). The water inlet of the first pump (16) is connected to the second drainage trough (101). The control host (15) is electrically connected to a second delivery pump (17). The water inlet of the second delivery pump (17) is connected to the drain outlet of the water purifier (14). The second delivery pump (17) is provided with multiple drain outlets. A first delivery water pipe (18) is fixedly connected to the highest surface of each of the multiple guide plates (8). One end of the first delivery water pipe (18) is connected to the interior of the corresponding water storage plate (6), and the other end is connected to the drain outlet of the second delivery pump (17). The landscape ecological pond (1) is connected to a second water delivery pipe (19) on one side, and the other end of the second water delivery pipe (19) is connected to the drainage end of the second delivery pump (17). The inlet end of the second delivery pump (17) is also connected to a third delivery water pipe (20), the third delivery water pipe (20) is equipped with a valve, and the free end of the third delivery water pipe (20) is connected to an external water source; The first delivery pump (3), water level sensor (5) and water purifier (14) are all connected to the control host (15) via signal transmission.