Urban water body shore ecological restoration device
By combining a concave filter box and a J-shaped siphon suction pipe with a photovoltaic-driven purification device, the problems of damage to the riparian ecosystem and eutrophication of urban water bodies have been solved, achieving efficient water purification and ecological restoration.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENYANG LANDSCAPE CO LTD
- Filing Date
- 2025-02-13
- Publication Date
- 2026-06-30
Smart Images

Figure CN224430344U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of aquatic ecological technology, specifically to an ecological restoration device for urban waterfronts. Background Technology
[0002] Urban land scarcity has led to the encroachment of riparian vegetation zones, with rigid flood control embankments directly contacting water bodies, severing the connection between aquatic and terrestrial ecosystems and severely disrupting aquatic ecological processes. Furthermore, overdevelopment by industries such as aquaculture has exacerbated eutrophication in urban water bodies, resulting in frequent cyanobacterial blooms and severe damage to the aquatic ecosystem. To effectively address this problem, we propose an innovative urban waterfront ecological restoration device. This device comprises several concave filter boxes that overlap each other, a J-shaped siphon suction pipe, and a filtration and restoration structure. The filtration and restoration structure incorporates multiple filter components and is equipped with an energy supply system including photovoltaic panels, photovoltaic boxes, and batteries, as well as ecological restoration equipment such as ozone emitters and bubble emission nets. While existing technologies may already offer solutions to the aforementioned problems, this project aims to provide an alternative or replacement solution. Summary of the Invention
[0003] To achieve the above objectives, this utility model provides the following technical solution: an urban water body shoreline ecological restoration device, comprising: several concave filter boxes, a J-shaped siphon suction pipe, and a filtration restoration structure. The several concave filter boxes are respectively covered by each other. The J-shaped siphon suction pipe is connected to the highest concave filter box. The filtration restoration structure is installed inside the several concave filter boxes. The filtration restoration structure includes: several filter components, a photovoltaic panel, a photovoltaic box, a battery, an ozone emitter, several bubble emission nets, a pair of toothed diversion pipes, several siphon gas drainage pipes, and an air pump.
[0004] The photovoltaic box is installed on the concave filter box, the photovoltaic panel is installed on the photovoltaic box, the storage battery is installed inside the photovoltaic box, a plurality of siphon gas diversion pipes are respectively connected to a plurality of concave filter boxes, a pair of toothed diversion pipes are connected to a plurality of siphon gas diversion pipes, the ozone emitter and the air pump are respectively connected to a pair of toothed diversion pipes, and a plurality of bubble emission nets are respectively installed on a plurality of siphon gas diversion pipes;
[0005] It should be noted that, as described above, solar energy is converted into electrical energy in a battery through photovoltaic panels. This electrical energy powers the ozone emitter and the gas pump, which inflates a pair of toothed diverter tubes. Ozone and high-pressure gas are then directed to several concave filter boxes via several siphon gas diversion tubes. The gas inside the toothed diverter tubes is further divided by several bubble emission nets. Finally, the gas is directed to the inside of the concave filter boxes via J-shaped siphon pipes. The gas is then guided downwards sequentially through the siphon principle within the filter assembly, resulting in unidirectional filtration.
[0006] Preferably, the filter assembly includes: a well-shaped floating plate, a well-shaped floating airbag, several inserted shaft tubes, a J-type siphon discharge pipe, a set of filter tubes, a set of ring blocks, a filter ring mesh, and several triangular buffer blocks.
[0007] The well-shaped floating plate is movably disposed inside the concave filter box. The well-shaped floating airbag is installed on the well-shaped floating plate. Several inserted shaft tubes are evenly inserted on the well-shaped floating plate. The J-shaped siphon discharge pipe is inserted on the concave filter box. The sleeve filter tube is sleeved on the J-shaped siphon discharge pipe. The sleeve ring block is installed inside the sleeve filter tube. The filter ring mesh is installed on the sleeve ring block. Several triangular buffer blocks are evenly installed on the concave filter box.
[0008] It should be noted that, as described above, the well-shaped floating airbags on the well-shaped floating plate provide floating support, the well-shaped floating plate provides stable support inside the concave filter box, several inserted shaft tubes limit the position of the plants, the holes on the concave filter box facilitate drainage, the J-shaped siphon exhaust pipe purifies the gas, and the fitted filter tube, fitted ring block, and filter ring mesh provide unidirectional drainage and filtration of the gas inside the J-shaped siphon exhaust pipe. At the same time, several triangular buffer blocks guide any excess liquid.
[0009] Preferably, each of the concave filter boxes is provided with a detachable protective glass.
[0010] Preferably, a pH sensor is provided on the inner side of the concave filter box at the lowest end.
[0011] Preferably, a one-way drainage pipe is provided on the inner side of the concave filter box at the lowest end.
[0012] Preferably, the photovoltaic box is provided with a liquid replenishment tank and a liquid replenishment pump on its inner side. Beneficial effects
[0013] This utility model provides an ecological restoration device for urban waterfront areas. Compared with existing technologies, this device offers the following advantages: First, its ingenious design, through multiple concave filter boxes overlapping each other, combined with a J-shaped siphon drainage pipe and a filtration and restoration structure, achieves highly efficient water purification. The device utilizes photovoltaic panels to convert solar energy into electricity, driving an ozone emitter and an air pump to introduce ozone and high-pressure gas into the concave filter boxes. The ozone is then diverted through a bubble emission net, enhancing the oxidation and purification effects on the water. Second, the filter components feature a unique design. Well-shaped floating plates and floating airbags provide stable support, while inserted shaft tubes can be used to restrict plant growth. The J-shaped siphon discharge pipe, combined with the fitted filter tube, fitted circular block, and filter circular mesh, achieves unidirectional drainage filtration. Furthermore, the device is equipped with detachable protective glass, a pH sensor, a unidirectional drainage pipe, and a replenishment system, facilitating maintenance and management. It also allows for real-time monitoring of water conditions and adjustment of treatment strategies, ensuring the high efficiency and sustainability of water restoration. Attached Figure Description
[0014] Figure 1 This is a front sectional view of the urban water body shoreline ecological restoration device described in this utility model.
[0015] Figure 2 This is a schematic diagram of the toothed diversion pipe of the urban water body shoreline ecological restoration device described in this utility model.
[0016] Figure 3 for Figure 1 A magnified view of the letter "A" in the image.
[0017] In the diagram: 1. Concave filter box; 2. J-type siphon suction pipe; 3. Photovoltaic panel; 4. Photovoltaic box; 5. Storage battery; 6. Ozone emitter; 7. Bubble emission net; 8. Toothed diverter pipe; 9. Siphon gas drainage pipe; 10. Air pump; 11. Well-shaped floating plate; 12. Well-shaped floating airbag; 13. Inserted shaft tube; 14. J-type siphon discharge pipe; 15. Set filter tube; 16. Set ring block; 17. Filter ring mesh; 18. Triangular buffer block. Detailed Implementation
[0018] Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0019] Those skilled in the art should connect all electrical components and their compatible power supplies in this case via wires. Appropriate controllers and encoders should be selected according to the actual situation to meet control requirements. The specific connection and control sequence should refer to the working principle described below, where the electrical components are connected in sequence. The detailed connection methods are well-known in the art. The following mainly introduces the working principle and process, and will not describe the electrical control further. Example
[0020] The present invention will now be described in detail with reference to the accompanying drawings, such as... Figure 1-3 As shown, the concave filter boxes 1 are respectively covered by each other. The J-shaped siphon flow pipe 2 is connected to the highest concave filter box 1. The filter recovery structure is installed inside the concave filter boxes 1. The filter recovery structure includes: several filter components, photovoltaic panels 3, photovoltaic boxes 4, batteries 5, ozone emitters 6, several bubble emission nets 7, a pair of toothed diverter pipes 8, several siphon gas drainage pipes 9, and an air pump 10; the photovoltaic box 4 is installed on the concave filter box 1, and the photovoltaic panels 3... The battery 5 is installed on the inner side of the photovoltaic box 4, and several siphon gas diversion pipes 9 are respectively connected to several concave filter boxes 1. A pair of toothed diversion pipes 8 are connected to several siphon gas diversion pipes 9. The ozone emitter 6 and the air pump 10 are respectively connected to a pair of toothed diversion pipes 8. Several bubble emission nets 7 are respectively installed on several siphon gas diversion pipes 9. The filter assembly includes: a well-shaped floating plate 11 and a well-shaped floating airbag. 12. Several inserted shaft tubes 13, J-shaped siphon discharge pipes 14, fitted filter tubes 15, fitted annular blocks 16, filter annular mesh 17, and several triangular buffer blocks 18; the well-shaped floating plate 11 is movably disposed inside the concave filter box 1, the well-shaped floating airbag 12 is installed on the well-shaped floating plate 11, several inserted shaft tubes 13 are evenly inserted on the well-shaped floating plate 11, the J-shaped siphon discharge pipes 14 are inserted into the concave filter box 1, and the fitted filter tubes 15 are fitted onto the J-shaped... On the siphon discharge pipe 14, the set ring block 16 is installed inside the set filter pipe 15, the filter ring mesh 17 is installed on the set ring block 16, and several triangular buffer blocks 18 are evenly installed on the concave filter box 1; each of the several concave filter boxes 1 is provided with a detachable protective glass; a pH sensor is provided inside the lowest concave filter box 1; a one-way drainage pipe is provided inside the lowest concave filter box 1; and a replenishment tank and a replenishment pump are provided inside the photovoltaic box 4.
[0021] According to the appendix Figure 1-3It is concluded that solar energy is converted into electrical energy in the battery 5 by the photovoltaic panel 3. This electrical energy powers the ozone emitter 6 and the air pump 10, which inflate a pair of toothed diverter pipes 8. Ozone and high-pressure gas are then directed to several concave filter boxes 1 via several siphon gas diversion pipes 9. The gas inside the toothed diverter pipes 8 is further diverted by several bubble emission nets 7. The gas is then directed to the inside of the concave filter boxes 1 via J-shaped siphon pipes 2. The gas is then guided downwards sequentially through the siphon principle within the filter assembly. One-way filtration; the well-shaped floating airbags 12 on the well-shaped floating plate 11 provide floating support, the well-shaped floating plate 11 provides stable support inside the concave filter box 1, the plants are limited by several inserted shaft tubes 13, the gas is drained through the holes on the concave filter box 1, the gas is drained through the J-type siphon exhaust pipe, the filter tube 15, the ring block 16 and the filter ring mesh 17 are fitted to unidirectionally drain and filter the gas inside the J-type siphon exhaust pipe, and at the same time the excess liquid is drained through several triangular buffer blocks 18.
[0022] 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. Urban waterfront ecological restoration facilities, including: The system comprises several concave filter boxes, a J-shaped siphon flow pipe, and a filter recovery structure. The concave filter boxes are respectively covered by each other. The J-shaped siphon flow pipe is connected to the highest concave filter box. The filter recovery structure is installed inside the concave filter boxes. The filter recovery structure includes: several filter components, a photovoltaic panel, a photovoltaic box, a battery, an ozone emitter, several bubble emission nets, a pair of toothed diverter pipes, several siphon gas diversion pipes, and an air pump. The photovoltaic box is installed on the concave filter box, the photovoltaic panel is installed on the photovoltaic box, the storage battery is installed inside the photovoltaic box, a plurality of siphon gas diversion pipes are respectively connected to a plurality of concave filter boxes, a pair of toothed diversion pipes are connected to a plurality of siphon gas diversion pipes, the ozone emitter and the air pump are respectively connected to a pair of toothed diversion pipes, and a plurality of bubble emission nets are respectively installed on a plurality of siphon gas diversion pipes.
2. The urban waterfront ecological restoration device according to claim 1, characterized in that, The filter assembly includes: a well-shaped floating plate, a well-shaped floating airbag, several inserted shaft tubes, a J-type siphon discharge pipe, a set of filter tubes, a set of circular blocks, a filter circular mesh, and several triangular buffer blocks. The well-shaped floating plate is movably disposed inside the concave filter box. The well-shaped floating airbag is installed on the well-shaped floating plate. Several inserted shaft tubes are evenly inserted on the well-shaped floating plate. The J-shaped siphon discharge pipe is inserted on the concave filter box. The sleeve filter tube is sleeved on the J-shaped siphon discharge pipe. The sleeve ring block is installed inside the sleeve filter tube. The filter ring mesh is installed on the sleeve ring block. Several triangular buffer blocks are evenly installed on the concave filter box.
3. The urban waterfront ecological restoration device according to claim 2, characterized in that, Each of the concave filter boxes is equipped with a detachable protective glass.
4. The urban waterfront ecological restoration device according to claim 3, characterized in that, A pH sensor is installed on the inner side of the concave filter box at the lowest end.
5. The urban waterfront ecological restoration device according to claim 4, characterized in that, A one-way drainage pipe is provided on the inner side of the concave filter box at the lowest end.
6. The urban waterfront ecological restoration device according to claim 5, characterized in that, The photovoltaic box is equipped with a liquid replenishment tank and a liquid replenishment pump on its inner side.