A comprehensive water station sewage recycling system

By designing a comprehensive water station wastewater recycling system, multi-stage treatment and recycling of water used in glass production have been achieved, solving the problem of low raw water utilization and reducing the enterprise's wastewater discharge pressure and production costs.

CN224404464UActive Publication Date: 2026-06-26ANHUI XINYI PHOTOVOLTAIC GLASS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ANHUI XINYI PHOTOVOLTAIC GLASS CO LTD
Filing Date
2025-05-12
Publication Date
2026-06-26

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Abstract

The comprehensive water station sewage recycling system provided by the utility model includes a production water storage tank, a sewage treatment unit and a water taking and purifying unit, the sewage treatment unit is connected with the production water storage tank, the water taking and purifying unit is connected with the production water storage tank, the water taking and purifying unit is connected with the sewage treatment unit, the water taking and purifying unit can take water from natural water area and purify, the obtained production water is stored in the production water storage tank, the sewage treatment unit further processes the sewage generated by the water taking and purifying unit, improves the utilization rate of raw water, reduces the enterprise sewage and waste discharge pressure and reduces the production cost.
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Description

Technical Field

[0001] This utility model belongs to the field of wastewater treatment, specifically, it relates to a comprehensive water station wastewater recycling system. Background Technology

[0002] In the glass manufacturing industry, production water is usually taken from natural water bodies such as rivers and lakes. Generally, water intake stations are built near rivers, and high-power water pumps are used to pump water from natural water bodies into raw water pipelines. A certain proportion of chemicals are added and mixed into integrated water purification equipment. The integrated water purification equipment is purified and filtered by the packing material inside to obtain production water that can be used normally in the production workshop. During the use of the integrated water purification equipment, wastewater is discharged once every two hours to ensure the water purification efficiency of the water purifier. The wastewater flows into the sewage pipe network, resulting in low raw water utilization rate, which increases the enterprise's sewage discharge pressure and production costs.

[0003] To address the aforementioned issues, patent document No. 207347283U discloses a novel wastewater purifier and system, relating to the field of wastewater purification. This novel wastewater purifier comprises a first cylinder and a second cylinder. The first cylinder primarily performs physical filtration of wastewater, discharging sediment and other contaminants from a first drain outlet. The second cylinder then performs chemical sedimentation to remove heavy metal ions and other contaminants, achieving multi-stage purification. Simultaneously, a water quality analyzer detects water quality parameters in the second cylinder and transmits these parameters to a control module. When the water quality parameters fall below a preset value, the control module opens a first solenoid valve, allowing wastewater to re-enter the second cylinder for further chemical sedimentation until the water quality parameters meet the required standards before being discharged through a second drain pipe. However, this method fails to resolve the aforementioned problems.

[0004] Therefore, in order to improve or solve at least one of the above problems, a comprehensive water station wastewater recycling system is provided that can further utilize the sewage and wastewater generated by the water intake station, improve the utilization rate of raw water, reduce the pressure of enterprise sewage discharge and wastewater discharge, and reduce production costs. Utility Model Content

[0005] This utility model is designed to solve the aforementioned problems. Its purpose is to provide a comprehensive water station wastewater recycling system that can further utilize the wastewater generated from water intake stations, improve raw water utilization, reduce the pressure on enterprises to discharge wastewater, and lower production costs. To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] This utility model provides a comprehensive water station wastewater recycling system, which includes a production water storage tank, a wastewater treatment unit, and a water intake and purification unit. The wastewater treatment unit is connected to the production water storage tank, the water intake and purification unit is connected to the production water storage tank, and the water intake and purification unit is connected to the wastewater treatment unit.

[0007] The integrated water station wastewater recycling system provided by this utility model may also have the following features: the wastewater treatment unit includes a wastewater sedimentation tank, a wastewater pipe, a filter press, and a filter press outlet pipe. One end of the wastewater pipe is connected to the wastewater sedimentation tank, and the other end of the wastewater pipe is connected to the filter press. One end of the filter press outlet pipe is connected to the filter press, and the other end of the filter press outlet pipe is connected to the production water storage tank.

[0008] The integrated water station wastewater recycling system provided by this utility model may also have the following feature: a slurry pump is installed on the wastewater pipe.

[0009] The integrated water station wastewater recycling system provided by this utility model may also have the following features: the water intake and purification unit includes a water intake pipe, a water purifier, and a water purifier drain pipe. One end of the water intake pipe is located in the water source, and the other end of the water intake pipe is connected to the water purifier. One end of the water purifier drain pipe is connected to the water purifier, and the other end of the water purifier drain pipe is connected to the wastewater sedimentation tank.

[0010] The integrated water station wastewater recycling system provided by this utility model may also have the following features: the water purifier is connected to a water purification pipe, one end of the water purification pipe is connected to the water purifier, and the other end of the water purification pipe is connected to the production water storage tank.

[0011] The integrated water station wastewater recycling system provided by this utility model may also include a cooling tower unit, which includes a cooling tower and a cooling tower replacement sewage pipe. One end of the cooling tower replacement sewage pipe is connected to the cooling tower, and the other end of the cooling tower replacement sewage pipe is connected to the wastewater sedimentation tank.

[0012] The technical effects of this utility model are as follows: The integrated water station wastewater recycling system provided by this utility model includes a production water storage tank, a wastewater treatment unit, and a water intake and purification unit. The wastewater treatment unit is connected to the production water storage tank, the water intake and purification unit is connected to the production water storage tank, and the water intake and purification unit is connected to the wastewater treatment unit. The water intake and purification unit can take water from natural water bodies and purify it, storing the obtained production water in the production water storage tank. The wastewater treatment unit further treats the wastewater generated by the water intake and purification unit, improving the utilization rate of raw water, reducing the pressure of enterprise sewage discharge and wastewater discharge, and reducing production costs.

[0013] Therefore, the integrated water station wastewater recycling system provided by this utility model can further utilize the wastewater generated by the water intake station, improve the utilization rate of raw water, reduce the pressure of enterprise sewage discharge and wastewater discharge, and reduce production costs. Attached Figure Description

[0014] This manual includes the following figures, which illustrate the following:

[0015] Figure 1 This is a schematic diagram of the integrated water station wastewater recycling system in an embodiment of this utility model.

[0016] The following are marked on the diagram: Production water storage tank-10, sewage treatment unit-20, sewage sedimentation tank-21, sewage pipe-22, filter press-23, filter press outlet pipe-24, slurry pump-25, water intake and purification unit-30, water intake pipe-31, water purifier-32, water purifier drain pipe-33, purified water pipe-34, cooling tower unit-40, cooling tower-41, cooling tower replacement drain pipe-42. Detailed Implementation

[0017] The specific embodiments of the present invention will be further described in detail below with reference to the accompanying drawings, in order to help those skilled in the art to have a more complete, accurate and in-depth understanding of the inventive concept and technical solution of the present invention, and to facilitate its implementation.

[0018] Figure 1 This is a schematic diagram of the integrated water station wastewater recycling system in an embodiment of this utility model.

[0019] like Figure 1 As shown, the integrated water station wastewater recycling system provided by this utility model includes a production water storage tank 10, a wastewater treatment unit 20, and a water intake and purification unit 30. The wastewater treatment unit 20 is connected to the production water storage tank 10, the water intake and purification unit 30 is connected to the production water storage tank 10, and the water intake and purification unit 20 is connected to the wastewater treatment unit 20. The water intake and purification unit 30 can draw water from natural water bodies and purify it, storing the obtained production water in the production water storage tank 10. The wastewater treatment unit 20 further treats the wastewater generated by the water intake and purification unit 30, improving the utilization rate of raw water, reducing the pressure of enterprise sewage discharge and wastewater discharge, and reducing production costs.

[0020] The water intake and purification unit 30 includes a water intake pipe 31, a water purifier 32, and a water purifier drain pipe 33. One end of the water intake pipe 31 is located within the water source, and the other end is connected to the water purifier 32. One end of the water purifier drain pipe 33 is connected to the water purifier 32, and the other end is connected to a wastewater sedimentation tank 21. The water purifier 32 is connected to a water purification pipe 34, one end of which is connected to the water purifier 32, and the other end is connected to a production water storage tank 10. A water pump is installed on the water intake pipe 31 to draw raw water from the natural water body into the water purifier 32. The water purifier 32 purifies the raw water, and the resulting production water is stored in the production water storage tank 10 through the water purification pipe 34. The wastewater generated during purification is discharged into the wastewater sedimentation tank 21 through the water purifier drain pipe 33. The wastewater sedimentation tank 21 can be used to buffer wastewater when a large amount of wastewater is generated, preventing wastewater from flowing out and improving the reliability of the system.

[0021] The wastewater treatment unit 20 includes a wastewater sedimentation tank 21, a wastewater pipe 22, a filter press 23, and a filter press outlet pipe 24. One end of the wastewater pipe 22 is connected to the wastewater sedimentation tank 21, and the other end of the wastewater pipe 22 is connected to the filter press 23. One end of the filter press outlet pipe 24 is connected to the filter press 23, and the other end of the filter press outlet pipe 24 is connected to the production water storage tank 10. The wastewater sedimentation tank 21 is used to receive wastewater generated from the water intake and purification unit 30. In the wastewater sedimentation tank 21, impurities in the water will settle, and the upper layer of water in the wastewater sedimentation tank 21 will become clear over time, which can be used for some water needs with low water quality requirements, such as sanitary cleaning water.

[0022] The sewage pipe 22 is equipped with a slurry pump 25, which can transport the sewage sedimentation tank 21 containing a large number of solid particles or high-concentration slurry to the filter press 23 for further treatment of the sewage in the sewage sedimentation tank 21. The filter press 23 separates the mud and water, and the water produced by the filter press 23 is of good quality and can meet the needs of production water. The production water separated by the filter press 23 is stored in the production water storage tank 10 through the filter press outlet pipe 24, which improves the utilization rate of raw water, reduces the pressure of sewage discharge and waste discharge of enterprises, and reduces production costs.

[0023] The integrated water station wastewater recycling system provided by this utility model also includes a cooling tower unit 40, which includes a cooling tower 41 and a cooling tower replacement sewage pipe 42. One end of the cooling tower replacement sewage pipe 42 is connected to the cooling tower 41, and the other end is connected to the wastewater sedimentation tank 21. In the production process, circulating water is often used for cooling kilns and equipment. The circulating water is generally cooled through the cooling tower 41. In the summer, due to the increase in ambient temperature, the cooling of the circulating water becomes more difficult and the water temperature is difficult to control. As a result, when using a closed cooling tower, it is necessary to continuously add production water to the cooling tower 41 for replacement to reduce the temperature of the spray water and achieve the cooling effect. During the replacement process, a large amount of water will be discharged through the sewage pipe, resulting in water waste. The replacement sewage pipe 42 can discharge the replaced water into the wastewater sedimentation tank 21 for recycling, avoiding water waste, further improving the reliability of the structure, and helping to reduce production costs.

[0024] The role and effect of the embodiments

[0025] The integrated water station wastewater recycling system provided by this utility model includes a production water storage tank 10, a wastewater treatment unit 20, and a water intake and purification unit 30. The wastewater treatment unit 20 is connected to the production water storage tank 10, the water intake and purification unit 30 is connected to the production water storage tank 10, and the water intake and purification unit 20 is connected to the wastewater treatment unit 20. The water intake and purification unit 30 can take water from natural water bodies and purify it, storing the obtained production water in the production water storage tank 10. The wastewater treatment unit 20 further treats the wastewater generated by the water intake and purification unit 30, improving the utilization rate of raw water, reducing the pressure of enterprise sewage discharge and wastewater discharge, and reducing production costs.

[0026] The present invention has been described above by way of example with reference to the accompanying drawings. Obviously, the specific implementation of the present invention is not limited to the above-described manner. Any non-substantial improvements made using the inventive concept and technical solution of the present invention; or the direct application of the inventive concept and technical solution to other situations without modification, are all within the protection scope of the present invention.

Claims

1. A comprehensive water station sewage recycling system, characterized in that, The system includes a production water storage tank (10), a wastewater treatment unit (20), and a water intake and purification unit (30). The wastewater treatment unit (20) is connected to the production water storage tank (10), the water intake and purification unit (30) is connected to the production water storage tank (10), and the water intake and purification unit (30) is connected to the wastewater treatment unit (20). The wastewater treatment unit (20) includes a wastewater sedimentation tank (21), a wastewater pipe (22), a filter press (23), and a filter press outlet pipe (24). One end of the wastewater pipe (22) is connected to the wastewater sedimentation tank (21), and the other end of the wastewater pipe (22) is connected to the filter press (23). One end of the filter press outlet pipe (24) is connected to the filter press (23), and the other end of the filter press outlet pipe (24) is connected to the production water storage tank (10).

2. The integrated water station wastewater recycling system of claim 1, wherein, A slurry pump (25) is installed on the sewage pipe (22).

3. The integrated water station wastewater recycling system of claim 2, wherein, The water intake and purification unit (30) includes a water intake pipe (31), a water purifier (32), and a water purifier drain pipe (33). One end of the water intake pipe (31) is located in the water source, and the other end of the water intake pipe (31) is connected to the water purifier (32). One end of the water purifier drain pipe (33) is connected to the water purifier (32), and the other end of the water purifier drain pipe (33) is connected to the sewage sedimentation tank (21).

4. The integrated water station wastewater recycling system of claim 3, wherein, The water purifier (32) is connected to a water purification pipe (34), one end of which is connected to the water purifier (32), and the other end of which is connected to the production water storage tank (10).

5. The integrated water station wastewater recycling system of claim 4, wherein, It also includes a cooling tower unit (40), which includes a cooling tower (41) and a cooling tower displacement drain pipe (42). One end of the cooling tower displacement drain pipe (42) is connected to the cooling tower (41), and the other end of the cooling tower displacement drain pipe (42) is connected to the sewage sedimentation tank (21).