Combined river ecological management device

CN224325752UActive Publication Date: 2026-06-05NANJING QIXIANTONG ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANJING QIXIANTONG ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-06-16
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

Existing self-priming floating garbage bins are prone to wear and damage to the drive equipment and connecting structure during long-term up-and-down reciprocating movement, affecting the stability and service life of river management equipment.

Method used

Adopting a suction design, a water pump draws river water into the garbage bin, and floating debris enters the bin with the water flow. The river water is circulated through a telescopic hose and connecting pipe. Combined with a stainless steel garbage bin and a storage net, floating debris is collected. The sliding sleeve and column structure ensure stable movement of the garbage bin.

Benefits of technology

It achieves stability in river management and durability of equipment, avoids equipment wear and tear, ensures efficient river cleaning, and facilitates the installation and removal of garbage bins.

✦ Generated by Eureka AI based on patent content.

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Abstract

The application relates to the technical field of river ecological management, in particular to a combined river ecological management device, which comprises a supporting plate and a sliding sleeve. A water pumping assembly is arranged on one side of the supporting plate. The water pumping assembly comprises a water pumping pump. An elastic hose is fixed to the water inlet end of the water pumping pump through a clamp. A connecting pipe is connected to the bottom end of the elastic hose through a pipe joint. A water return pipe is connected to the water outlet end of the water pumping pump through a threaded groove. A garbage collecting device is arranged at one end of the connecting pipe. River water flowing into a stainless steel garbage can is pumped out by the water pumping pump and then flows back into the river through the water return pipe, so that the river water continuously flows into the stainless steel garbage can. When the river water flows into the stainless steel garbage can, leaves and garbage floating on the water surface flow into the stainless steel garbage can along with the water flow and are collected by a storage screen, so that the river is cleaned and the purpose of river ecological management is achieved.
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Description

Technical Field

[0001] This invention relates to the field of river ecological management technology, specifically to a combined river ecological management device. Background Technology

[0002] River ecological restoration is a process based on ecological principles that combines engineering and non-engineering measures to repair and rebuild damaged river ecosystems, restore their natural hydrological characteristics, biodiversity, and ecological functions. Its core lies in abandoning traditional hard engineering methods and instead adopting near-natural restoration techniques to achieve the coordinated restoration of the "water-soil-biology" system.

[0003] River ecological management equipment mainly includes physical management equipment, chemical and biological management equipment, and ecological restoration equipment. Chemical and biological management equipment includes biological activation systems, aeration and oxygenation equipment, etc. Commonly used material management equipment includes dredging equipment and floating debris removal equipment.

[0004] Self-priming floating garbage bins are a type of material management equipment, an environmentally friendly device that uses intelligent technology to automatically collect floating garbage in waterways. Existing suction-type floating garbage bins move up and down repeatedly during operation. When they move down, they draw water from the river into their interior and simultaneously collect floating debris such as leaves and garbage from the water surface into a net bag. However, prolonged up-and-down movement can easily cause wear and tear on the garbage bin's drive mechanism and the structure connected to the garbage bin. Therefore, a combined river ecological management device is proposed, which adopts a suction design. A water pump draws river water into the garbage bin, thereby drawing floating debris into the garbage bin to achieve the purpose of river management. It operates stably and is not easily damaged. Summary of the Invention

[0005] To address the problems in existing technologies, this invention provides a combined river ecological management device. It adopts a suction design, in which a water pump draws river water into a garbage bin, thereby directing floating debris into the bin and achieving the purpose of river management. The device is stable in operation and not easily damaged.

[0006] The technical solution adopted by the present invention to solve its technical problem is a combined river ecological management device, including a support plate and a sliding sleeve. A water pumping assembly is provided on one side of the support plate. The water pumping assembly includes a water pump. The water inlet end of the water pump is fixed with a telescopic hose by a clamp. The bottom end of the telescopic hose is connected to a connecting pipe by a pipe joint. The water outlet end of the water pump is connected to a return water pipe by a threaded groove.

[0007] A garbage collection device is provided at one end of the connecting pipe. The garbage collection device includes a stainless steel garbage bin connected to one end of the connecting pipe through a threaded groove. A buoyancy ring is fixedly fitted on the top of the outer side of the stainless steel garbage bin, and a waste storage net is provided inside the stainless steel garbage bin.

[0008] By adopting the above technical solution, the water pump works by drawing river water out of the stainless steel garbage bin through the connecting pipe and the telescopic hose, so that the river water continuously flows into the stainless steel garbage bin, thereby causing floating objects to flow into the stainless steel garbage bin with the water flow, where they are collected by the structural ring.

[0009] Specifically, a reserved groove is provided through one side of the support plate, and a column is fixed inside the reserved groove by bolts. A sliding sleeve is fitted on the outside of the column.

[0010] Specifically, a connecting plate is fixed to one side of the sliding sleeve by bolts, and a fixing sleeve is welded to one end of the connecting plate. The fixing sleeve is fixedly fitted on the outside of the connecting pipe.

[0011] Specifically, a shelf is welded to one side of the support plate, the water pump is mounted on the top of the shelf via a mounting bracket, and support rods are welded to both ends of the support plate on the side of the bottom of the shelf. The top ends of the support rods are fixed to the bottom of the shelf with bolts.

[0012] Specifically, the stainless steel trash can has a connecting sleeve welded to its bottom, and the stainless steel trash can is connected to the top of the connecting pipe through the connecting sleeve.

[0013] Specifically, a structural ring is provided on the top of the waste storage net, and the waste storage net is placed inside the stainless steel garbage bin through the structural ring and the limiting ring.

[0014] Specifically, an electrical box is bolted to the side of the support plate away from the shelf.

[0015] The beneficial effects of this invention are:

[0016] (1) The combined river ecological management device of the present invention uses a water pump to draw out the river water flowing into the stainless steel garbage bin through a telescopic hose and connecting pipe, and then return it to the river through a return pipe, so that the river water continuously flows into the stainless steel garbage bin. When the river water flows into the stainless steel garbage bin, the leaves, garbage and other floating objects on the water surface are carried into the stainless steel garbage bin with the water flow and are collected by the waste collection net, thus cleaning the river and achieving the purpose of river ecological management.

[0017] (2) The combined river ecological management device of the present invention has a sliding sleeve on the outside of the column, and a fixed sleeve at one end of the connecting plate is fixed on the outside of the connecting pipe. When the stainless steel garbage can moves up and down with the water level, the connecting plate drives the column to the outside of the sliding sleeve, so as to limit the movement of the stainless steel garbage can without affecting its up and down movement. Attached Figure Description

[0018] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0019] Figure 1This is a schematic diagram of the overall structure of the present invention;

[0020] Figure 2 This is a schematic diagram of the support plate structure of the present invention;

[0021] Figure 3 This is a schematic diagram of the pumping assembly structure of the present invention;

[0022] Figure 4 This is a schematic diagram of the waste collection device of the present invention;

[0023] In the diagram: 1. Support plate; 2. Pumping assembly; 201. Pump; 202. Telescopic hose; 203. Connecting pipe; 204. Return pipe; 3. Garbage collection device; 301. Stainless steel garbage bin; 302. Buoyancy ring; 303. Limiting ring; 304. Structural ring; 305. Storage net; 306. Connecting sleeve; 4. Shelf; 5. Reserved slot; 6. Column; 7. Sliding sleeve; 8. Connecting plate; 9. Fixing sleeve; 10. Electrical box; 11. Support rod. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this invention easier to understand, the invention will be further described below in conjunction with specific embodiments.

[0025] Employing a suction design, a water pump draws water from the river into the garbage bin, thus directing floating debris into the bin and achieving the goal of river management. It operates stably and is not easily damaged. Figure 1-4 As shown, the combined river ecological management device of the present invention includes a support plate 1 and a sliding sleeve 7. A pumping assembly 2 is provided on one side of the support plate 1. The pumping assembly 2 includes a pumping pump 201. The inlet end of the pumping pump 201 is fixed with a telescopic hose 202 by a clamp. The bottom end of the telescopic hose 202 is connected to a connecting pipe 203 by a pipe joint. The outlet end of the pumping pump 201 is connected to a return water pipe 204 by a threaded groove.

[0026] A garbage collection device 3 is provided at one end of the connecting pipe 203. The garbage collection device 3 includes a stainless steel garbage bin 301 connected to one end of the connecting pipe 203 through a threaded groove. A buoyancy ring 302 is fixedly sleeved on the top outer side of the stainless steel garbage bin 301. A waste storage net 305 is provided inside the stainless steel garbage bin 301.

[0027] In use, the water pump 201 works to draw water from the river inside the stainless steel trash can 301 through the connecting pipe 203 and the telescopic hose 202, so that the river water continuously flows into the stainless steel trash can 301, thereby causing floating objects to flow into the stainless steel trash can 301 with the water flow, where they are collected by the structural ring 304.

[0028] For example, such as Figure 2 As shown, the present invention also includes a reserved groove 5 through one side of the support plate 1, a column 6 fixed inside the reserved groove 5 by bolts, and a sliding sleeve 7 sleeved on the outside of the column 6.

[0029] When in use, the sliding sleeve 7 is fitted onto the outside of the column 6 and can move up and down.

[0030] For example, such as Figure 2 As shown, the present invention also includes a connecting plate 8 fixed to one side of the sliding sleeve 7 by bolts, a fixing sleeve 9 welded to one end of the connecting plate 8, and the fixing sleeve 9 fixedly sleeved on the outside of the connecting pipe 203.

[0031] In use, the fixing sleeve 9 is fixedly fitted on the outside of the connecting pipe 203. The fixing sleeve 9 is connected to the sliding sleeve 7 through the connecting plate 8, so that when the stainless steel trash can 301 and the connecting pipe 203 move up and down, the sliding sleeve 7 will slide on the outside of the column 6.

[0032] For example, such as Figure 3 , Figure 4 As shown, the present invention also includes a connecting sleeve 306 welded to the bottom of the stainless steel trash can 301, and the stainless steel trash can 301 is sleeved to the top of the connecting pipe 203 through the connecting sleeve 306.

[0033] When in use, the stainless steel trash can 301 is connected to one end of the connecting pipe 203 via the connecting sleeve 306, making it easy to install and disassemble.

[0034] For example, such as Figure 3 , Figure 4 As shown, the present invention also includes a shelf plate welded to one side of the support plate, the water pump being mounted on the top of the shelf plate via a mounting bracket, and support rods welded to both ends of the support plate on the side of the bottom of the shelf plate, the top ends of the support rods being fixed to the bottom of the shelf plate by bolts.

[0035] During use, the support rods are used to support the shelves.

[0036] For example, such as Figure 4 As shown, the present invention also includes a structural ring 304 provided on the top of the waste storage net 305, and the waste storage net 305 is placed inside the stainless steel trash can 301 through the structural ring 304 and the limiting ring 303.

[0037] In use, the waste collection net 305 is placed inside the stainless steel trash can 301 via the structural ring 304 and the limiting ring 303, making it convenient for personnel to remove the waste collection net 305. The limiting ring 303 is used to support the structural ring 304, which prevents the waste collection net 305 from floating.

[0038] For example, such as Figure 1As shown, the present invention also includes an electrical box 10 fixed to the side of the support plate 1 away from the shelf 4 by bolts.

[0039] When in use, the electrical box 10 is designed to facilitate the installation of various electrical devices that control the water pump 201 inside.

[0040] When using this invention, personnel use bolts to fix the support plate 1 to the side of the river, install the controller and other equipment in the electrical box 10, connect it to the water pump 201, and then use a power cord to connect the device to an external power source.

[0041] When the support plate 1 is fixed to the side of the river, the stainless steel trash can 301 is placed in the river water. The buoyancy ring 302 provides buoyancy to the stainless steel trash can 301, so that the stainless steel trash can 301 can float on the water surface and the top of the stainless steel trash can 301 is slightly lower than the water surface. The top of the stainless steel trash can 301 is slightly lower than the water surface so that the river water can flow into the stainless steel trash can (301). The water pump 201 is turned on to pump out the river water flowing into the stainless steel trash can 301 through the telescopic hose 202 and the connecting pipe 203, and then return it to the river through the return water pipe 204. Thus, the river water continuously flows into the stainless steel trash can 301. When the river water flows into the stainless steel trash can 301, the leaves, garbage and other things floating on the water surface are carried into the stainless steel trash can 301 with the water flow and are collected by the waste storage net 305, cleaning the river and achieving the purpose of river ecological management.

[0042] The sliding sleeve 7 is fitted on the outside of the column 6, and the fixing sleeve 9 at one end of the connecting plate 8 is fixedly fitted on the outside of the connecting pipe 203. When the stainless steel trash can 301 moves up and down with the water level, the connecting plate 8 drives the column 6 to the outside of the sliding sleeve 7, so that the stainless steel trash can 301 can be limited without affecting its up and down movement.

[0043] The waste storage net 305 is placed inside the stainless steel trash can 301 through the structural ring 304 and the limiting ring 303, making it easy to lift and take out, and to clean the floating objects inside the waste storage net 305. The stainless steel trash can 301 is fixed to the top of the connecting pipe 203 through the connecting sleeve 306, and the connecting pipe 203 is connected to the bottom of the telescopic hose 202 through the connecting sleeve, making it easy to assemble and disassemble.

[0044] The foregoing has shown and described the basic principles, main features, and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of the invention. Various changes and modifications can be made to the invention without departing from its spirit and scope, and all such changes and modifications fall within the scope of protection claimed by the present invention. The scope of protection of the present invention is defined by the appended claims and their equivalents.

Claims

1. A combined river ecological management device, characterized in that, It includes a support plate (1) and a sliding sleeve (7). A water pumping assembly (2) is provided on one side of the support plate (1). The water pumping assembly (2) includes a water pump (201). The water inlet end of the water pump (201) is fixed with a telescopic hose (202) by a clamp. The bottom end of the telescopic hose (202) is connected to a connecting pipe (203) by a pipe joint. The water outlet end of the water pump (201) is connected to a return water pipe (204) by a threaded groove. A garbage collection device (3) is provided at one end of the connecting pipe (203). The garbage collection device (3) includes a stainless steel garbage bin (301) connected to one end of the connecting pipe (203) through a threaded groove. A buoyancy ring (302) is fixedly sleeved on the top outer side of the stainless steel garbage bin (301). A miscellaneous storage net (305) is provided inside the stainless steel garbage bin (301).

2. The combined river ecological management device according to claim 1, characterized in that, A reserved groove (5) is provided through one side of the support plate (1), and a column (6) is fixed inside the reserved groove (5) by bolts. A sliding sleeve (7) is fitted on the outside of the column (6).

3. The combined river ecological management device according to claim 1, characterized in that, A connecting plate (8) is fixed to one side of the sliding sleeve (7) by bolts, and a fixing sleeve (9) is welded to one end of the connecting plate (8). The fixing sleeve (9) is fixedly fitted on the outside of the connecting pipe (203).

4. The combined river ecological management device according to claim 1, characterized in that, A shelf (4) is welded to one side of the support plate (1). The water pump (201) is mounted on the top of the shelf (4) by a mounting bracket. Support rods (11) are welded to both ends of the support plate (1) at the bottom of the shelf (4). The top of the support rods (11) is fixed to the bottom of the shelf (4) by bolts.

5. A combined river ecological management device according to claim 1, characterized in that, The stainless steel trash can (301) has a connecting sleeve (306) welded to its bottom, and the stainless steel trash can (301) is connected to the top of the connecting pipe (203) through the connecting sleeve (306).

6. The combined river ecological management device according to claim 1, characterized in that, The top of the waste storage net (305) is provided with a structural ring (304), and the waste storage net (305) is placed inside the stainless steel trash can (301) through the structural ring (304) and the limiting ring (303).

7. A combined river ecological management device according to claim 1, characterized in that, An electrical box (10) is fixed to the side of the support plate (1) away from the shelf (4) by bolts.