Intelligent sewage treatment equipment

By using a monitor and hydraulic cylinder-driven screen lifting and moving components for cleaning, the problems of clogging and low automation in traditional sewage treatment equipment have been solved, enabling continuous operation and improved economic efficiency.

CN224462358UActive Publication Date: 2026-07-07JIANGSU JINMAO CHENGXING ENVIRONMENTAL PROTECTION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
JIANGSU JINMAO CHENGXING ENVIRONMENTAL PROTECTION TECH CO LTD
Filing Date
2025-06-19
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Traditional mechanical bar screens are prone to entanglement by flexible debris or grease in sewage treatment, leading to frequent blockages. They also suffer from outdated cleaning technology, low automation levels, high energy consumption, and high maintenance costs, making them unsuitable for unattended operation.

Method used

The system uses a monitor to track the amount of waste blocking the screen in real time. A hydraulic cylinder drives the screen lifting and moving components to work with the cleaning components for automated cleaning, ensuring the continuous operation of the treatment tank.

Benefits of technology

It achieves automated cleaning of the screen, avoids clogging, improves processing efficiency and equipment economy, and adapts to the needs of unattended operation.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224462358U_ABST
    Figure CN224462358U_ABST
Patent Text Reader

Abstract

The utility model belongs to sewage treatment technical field, concretely relates to an intelligent sewage treatment equipment, including treatment pond and monitor, the first screen and the second screen of first hydraulic cylinder control are slidably assembled in treatment pond, the upper side of first screen is equipped with a plurality of circular ring fixedly, the upper side of treatment pond is slidably assembled with lifting plate, the lower side of lifting plate is equipped with the cross bar fixedly matched with a plurality of circular ring, the upper side of treatment pond is slidably assembled with the third screen of second hydraulic cylinder control, the upper side of treatment pond is equipped with the movement subassembly matched with first screen and the second screen, and the rear side of treatment pond is equipped with cleaning spare, through monitor, the garbage situation under the first screen and the second screen are blocked is monitored in real time, when needing cleaning, first hydraulic cylinder drives first screen and the second screen to go up through lifting plate, and the cleaning of cooperation movement subassembly and cleaning spare is carried out, and second hydraulic cylinder drives third screen to drop down, to guarantee the continuous operation of treatment pond, ensure the continuous operation of treatment pond.
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Description

Technical Field

[0001] This utility model belongs to the field of wastewater treatment technology, specifically relating to an intelligent wastewater treatment device. Background Technology

[0002] With the acceleration of urbanization and industrialization, sewage discharge has surged, making efficient solid waste screening a crucial step in sewage treatment. Traditional mechanical bar screens rely on fixed grid spacing or rotating screens for solid-liquid separation, but they face significant bottlenecks in actual operation: First, the screens are easily entangled by flexible debris or adhered with grease, leading to frequent blockages, especially under fluctuating flow rates or high-load conditions, resulting in a sharp drop in treatment efficiency and requiring frequent shutdowns for manual cleaning; second, cleaning technologies are lagging behind, mechanical scrapers easily retain dirt and accelerate screen wear, high-pressure water backwashing is energy-intensive and ineffective against fibrous waste, and traditional timed cleaning modes lack real-time sensing capabilities, resulting in resource waste; third, automation levels are low, relying on manual inspection and parameter adjustment, leading to slow response and difficulty in adapting to unattended operation requirements; fourth, high energy consumption and maintenance costs constrain the economic viability of the equipment, especially for small and medium-sized treatment facilities. Therefore, an intelligent sewage treatment device is needed to solve these problems. Utility Model Content

[0003] The purpose of this utility model is to provide an intelligent sewage treatment equipment that monitors the garbage situation under the first and second screens in real time through a monitor. When cleaning is required, the first hydraulic cylinder drives the first and second screens to rise through the lifting plate, and cleans them in conjunction with the moving components and cleaning parts. At the same time, the second hydraulic cylinder drives the third screen to fall, thereby ensuring the continuous operation of the treatment tank.

[0004] To achieve the above-mentioned technical objectives, the technical solution adopted by this utility model is as follows:

[0005] An intelligent wastewater treatment device includes a treatment tank and a monitor. The monitor is installed on the upper side of the treatment tank. A first screen and a second screen are slidably assembled inside the treatment tank. A connecting plate matching the treatment tank is fixedly provided on the lower side of the first screen and the second screen. A support frame is fixedly provided on the upper side of the treatment tank. The monitor is fixedly installed on one side of the support frame. A first hydraulic cylinder is fixedly provided on the upper side of the support frame. A horizontal plate is fixedly provided on the upper side of the first screen. A plurality of linearly distributed vertical rods are fixedly provided on the upper side of the horizontal plate. A lifting plate is slidably assembled on the upper side of the treatment tank. A ring is fixedly provided on the upper side of each vertical rod. A horizontal rod matching the plurality of rings is fixedly provided on the lower side of the lifting plate. The output end of the first hydraulic cylinder is fixedly connected to the upper side of the lifting plate. A third screen is slidably assembled on the upper side of the treatment tank. A second hydraulic cylinder is fixedly provided on the upper side of the treatment tank. The output end of the second hydraulic cylinder is fixedly connected to the upper side of the third screen. A moving component matching the first screen and the second screen is provided on the upper side of the treatment tank. A cleaning component is provided at the rear of the treatment tank.

[0006] The moving component includes a screw rotatably mounted on the lower side of the lifting plate, and several vertical rods are provided with threaded holes that match the screw. A motor is installed on the lower side of the lifting plate, and the output shaft of the motor is fixedly connected to the screw.

[0007] The cleaning component includes two symmetrically distributed circular shafts rotatably mounted on the lower side of the lifting plate. A cleaning brush is concentrically fixed on the lower side of each of the two circular shafts, and a gear is concentrically fixed on the lower side of each of the two circular shafts. A toothed plate that meshes with the gear is fixedly mounted on the front and rear sides of several circular rings.

[0008] The interior of the treatment tank is machined into a sloping surface that is higher on the left and lower on the right.

[0009] A discharge platform is fixedly provided on the rear side of the processing tank, and a baffle matching the discharge platform is fixedly provided on the support frame and the processing tank together.

[0010] The mesh size of the first screen is larger than that of the second screen, and the mesh size of the third screen is equal to that of the second screen.

[0011] This invention uses a monitor to monitor the garbage situation under the first and second screens in real time. When cleaning is required, the first hydraulic cylinder drives the first and second screens to rise through the lifting plate, and works with the moving components and cleaning parts to clean them. At the same time, the second hydraulic cylinder drives the third screen to fall, thereby ensuring the continuous operation of the treatment pool. Attached Figure Description

[0012] This utility model can be further illustrated by the non-limiting embodiments given in the accompanying drawings.

[0013] Figure 1 This is a schematic diagram of the structure of an embodiment of an intelligent sewage treatment device according to the present invention. Figure 1 ;

[0014] Figure 2 This is a schematic diagram of the structure of an embodiment of an intelligent sewage treatment device according to the present invention. Figure 2 ;

[0015] Figure 3 for Figure 2 Enlarged structural diagram at point A;

[0016] Figure 4 This is a schematic diagram of the structure of an embodiment of an intelligent sewage treatment device according to the present invention. Figure 3 ;

[0017] Figure 5 for Figure 4 A magnified structural diagram at point B in the middle.

[0018] The symbols for the main components are explained below:

[0019] Processing tank 10, monitor 11, first screen 12, second screen 13, connecting plate 14, support frame 15, first hydraulic cylinder 16, horizontal plate 17, vertical bar 18, lifting plate 19, ring 20, horizontal bar 21, third screen 22, second hydraulic cylinder 23, screw 30, motor 31, round shaft 35, cleaning brush 36, gear 37, toothed plate 38, unloading platform 40, baffle 41. Detailed Implementation

[0020] To enable those skilled in the art to better understand this utility model, the technical solution of this utility model will be further described below in conjunction with the accompanying drawings and embodiments.

[0021] like Figure 1-5As shown, this utility model discloses an intelligent sewage treatment device, including a treatment tank 10 and a monitor 11. The monitor 11 is installed on the upper side of the treatment tank 10. A first screen 12 and a second screen 13 are slidably assembled inside the treatment tank 10. A connecting plate 14 matching the treatment tank 10 is fixedly provided on the lower side of the first screen 12 and the second screen 13. A support frame 15 is fixedly provided on the upper side of the treatment tank 10. The monitor 11 is fixedly installed on one side of the support frame 15. A first hydraulic cylinder 16 is fixedly provided on the upper side of the support frame 15. A horizontal plate 17 is fixedly provided on the upper side of the first screen 12. A plurality of linearly arranged... The treatment tank 10 has distributed vertical rods 18, a lifting plate 19 is slidably mounted on the upper side of the treatment tank 10, and a ring 20 is fixedly mounted on the upper side of each vertical rod 18. A horizontal rod 21 matching several rings 20 is fixedly mounted on the lower side of the lifting plate 19. The output end of the first hydraulic cylinder 16 is fixedly connected to the upper side of the lifting plate 19. A third screen 22 is slidably mounted on the upper side of the treatment tank 10. A second hydraulic cylinder 23 is fixedly mounted on the upper side of the treatment tank 10. The output end of the second hydraulic cylinder 23 is fixedly connected to the upper side of the third screen 22. A moving component matching the first screen 12 and the second screen 13 is provided on the upper side of the treatment tank 10. A cleaning component is provided on the rear side of the treatment tank 10.

[0022] The moving assembly includes a screw 30 rotatably mounted on the lower side of the lifting plate 19, and several vertical rods 18 are provided with threaded holes that match the screw 30. A motor 31 is installed on the lower side of the lifting plate 19, and the output shaft of the motor 31 is fixedly connected to the screw 30.

[0023] The cleaning component includes two symmetrically distributed round shafts 35 rotatably mounted on the lower side of the lifting plate 19. Cleaning brushes 36 are concentrically fixed on the lower side of both round shafts 35. Gears 37 are concentrically fixed on the lower side of both round shafts 35. A number of rings 20 are all fixed with toothed plates 38 that mesh with the gears 37 on their front and rear sides.

[0024] In use, the monitor 11 monitors the amount of garbage blocked by the first screen 12 and the second screen 13 in real time. When the amount of garbage accumulates to a certain extent and begins to affect the normal flow of water, the output end of the second hydraulic cylinder 23 extends, placing the third screen 22 into the treatment pool 10 to block the garbage in the sewage. The output end of the first hydraulic cylinder 16 drives the lifting plate 19 to rise. After the connecting plate 14 is located on the upper side of the treatment pool 10, the motor 31 drives the screw 30 to rotate. The screw 30 drives the first screen 12 and the second screen 13 to move through the crossbar 21. At the same time, it drives the toothed plate 38 to move through the ring 20. When the rear side of the first screen 12 extends out of the upper side of the treatment pool 10, the toothed plate 38 drives the gear 37 to rotate. The gear 37 drives the cleaning brush 36 to rotate through the round shaft 35. As the first screen 12 and the second screen 13 move, the cleaning brush 36 removes the garbage, thereby completing the automated cleaning of the first screen 12 and the second screen 13 without manual operation.

[0025] Furthermore, the motor 31 can drive the first screen 12 and the second screen 13 to move back and forth, thereby cleaning by the cleaning brush 36 to ensure the smooth passage of sewage;

[0026] Furthermore, the left side of the connecting plate 14 is machined into an inclined surface to facilitate the flow of garbage in the sewage to the upper side of the connecting plate 14;

[0027] This invention uses a monitor to monitor the garbage situation under the first and second screens in real time. When cleaning is required, the first hydraulic cylinder drives the first and second screens to rise through the lifting plate, and works with the moving components and cleaning parts to clean them. At the same time, the second hydraulic cylinder drives the third screen to fall, thereby ensuring the continuous operation of the treatment pool.

[0028] The interior of the treatment tank 10 is designed with a slope that is higher on the left and lower on the right; this facilitates the flow of sewage and ensures that the first screen 12 and the second screen 13 can effectively block the garbage.

[0029] A discharge platform 40 is fixedly installed on the rear side of the treatment tank 10, and a baffle 41 matching the discharge platform 40 is fixedly installed on the support frame 15 together with the treatment tank 10; this facilitates the collection of the cleaned-up waste and improves the ease of use of the device.

[0030] The mesh size of the first screen 12 is larger than that of the second screen 13, and the mesh size of the third screen 22 is equal to that of the second screen 13. This allows the first screen 12 and the second screen 13 to block garbage of different sizes, preventing garbage accumulation and ensuring the normal flow of sewage. When cleaning the first screen 12 and the second screen 13, the third screen 22 blocks garbage, ensuring the smooth treatment of sewage and garbage.

[0031] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit the scope of this utility model. Any person skilled in the art can modify or alter the above embodiments without departing from the spirit and scope of this utility model. Therefore, all equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. An intelligent wastewater treatment device, comprising a treatment tank and a monitor, characterized in that: The monitor is installed on the upper side of the treatment pool. A first screen and a second screen are slidably assembled inside the treatment pool. The lower sides of the first screen and the second screen are fixedly provided with a connecting plate that matches the treatment pool. A support frame is fixedly provided on the upper side of the treatment pool. The monitor is fixedly installed on one side of the support frame. A first hydraulic cylinder is fixedly provided on the upper side of the support frame. A horizontal plate is fixedly provided on the upper side of the first screen. Several vertical rods are fixedly provided on the upper side of the horizontal plate in a linear distribution. A lifting plate is slidably assembled on the upper side of the treatment pool. A ring is fixedly provided on the upper side of each vertical rod. A horizontal rod that matches several of the rings is fixedly provided on the lower side of the lifting plate. The output end of the first hydraulic cylinder is fixedly connected to the upper side of the lifting plate. A third screen is slidably assembled on the upper side of the treatment pool. A second hydraulic cylinder is fixedly provided on the upper side of the treatment pool. The output end of the second hydraulic cylinder is fixedly connected to the upper side of the third screen. A moving component that matches the first screen and the second screen is provided on the upper side of the treatment pool. A cleaning component is provided at the rear of the treatment pool.

2. The intelligent sewage treatment equipment according to claim 1, characterized in that: The moving component includes a screw rotatably mounted on the lower side of the lifting plate, and several vertical rods are provided with threaded holes that match the screw. A motor is installed on the lower side of the lifting plate, and the output shaft of the motor is fixedly connected to the screw.

3. The intelligent sewage treatment equipment according to claim 1, characterized in that: The cleaning component includes two symmetrically distributed circular shafts rotatably mounted on the lower side of the lifting plate. A cleaning brush is concentrically fixed on the lower side of each of the two circular shafts, and a gear is concentrically fixed on the lower side of each of the two circular shafts. A toothed plate that meshes with the gear is fixedly mounted on the front and rear sides of several circular rings.

4. The intelligent sewage treatment equipment according to claim 1, characterized in that: The interior of the treatment tank is machined into a sloping surface that is higher on the left and lower on the right.

5. The intelligent sewage treatment equipment according to claim 1, characterized in that: A discharge platform is fixedly provided on the rear side of the processing pool, and a baffle matching the discharge platform is fixedly provided on the support frame and the processing pool together.

6. The intelligent sewage treatment equipment according to claim 1, characterized in that: The mesh size of the first screen is larger than that of the second screen, and the mesh size of the third screen is equal to that of the second screen.