Edge grinding circulating water section drainage system
By designing a segmented drainage system for the grinding and circulating water, and utilizing drainage ditches and water storage tanks in conjunction with aeration components, the problems of glass powder sedimentation and water overflow were solved, achieving efficient guidance and regulation of wastewater and improving the discharge efficiency of production wastewater.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI XINYI PHOTOVOLTAIC GLASS CO LTD
- Filing Date
- 2025-08-18
- Publication Date
- 2026-07-14
AI Technical Summary
Traditional drainage ditches are prone to glass powder sedimentation and water overflow during the glass washing and grinding process, which prevents the production wastewater from being effectively directed to the raw water tank for sewage treatment.
A segmented drainage system for grinding and circulating water is designed, including drainage ditches and a water storage tank drainage unit. By setting up a first ditch, a second ditch, tributary ditches, gates and water pumps, combined with aeration components, the system can guide and regulate wastewater in segments, ensuring that glass powder does not settle and preventing overflow.
It effectively reduces the sedimentation of glass powder in the drainage ditch, avoids the overflow of production wastewater, improves the efficiency and reliability of wastewater discharge, and adapts to the needs of different water consumption.
Smart Images

Figure CN224495333U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of glass washing and grinding drainage. Specifically, this utility model relates to a segmented drainage system for edge grinding circulating water. Background Technology
[0002] In the automated glass production process of the tempering workshop, the glass washing and polishing process generates a large amount of production water. This water flows into the drainage ditch in the washing and polishing machine area, and then into the raw water tank for wastewater treatment. The drainage ditch is usually 150m long and is generally sloped, with a depth of 400mm to 800mm. Due to the complex conditions of the production workshop and the uncertain water consumption of the washing and polishing machine, traditional washing and polishing ditches often experience glass powder settling at the bottom and water overflowing. The reason for this is that the drainage ditch has a small capacity and a long span, and the water flow in the distant drainage ditch cannot carry away the glass powder, resulting in the glass powder settling at the bottom and water overflowing.
[0003] To address the aforementioned issues, patent application number 202122327194.4 discloses a circulating water treatment system for an edge grinding machine. This system includes multiple edge grinding machines, drainage ditches surrounding the machines, a sedimentation device located below ground level, and a water pump above the sedimentation device. The sedimentation device comprises a fixedly connected storage tank, a sedimentation tank, and a clear water tank. One end of the drainage ditch is connected to the bottom of the storage tank via a drain pipe. An overflow trough is located above the side where the storage tank connects to the sedimentation tank, and this overflow trough is connected to the bottom of the sedimentation tank via a water supply pipe. A collection trough is located above the sedimentation tank, and this collection trough is connected to the clear water tank via a pipe. The water pump is located above the clear water tank, and the pump circulates the clear water from the clear water tank into the edge grinding machines for recycling. A sedimentation isolation device is located in the middle of the storage tank and the sedimentation tank. Buffer devices are installed at the ends of both the drain pipe and the water supply pipe. However, this system fails to solve the aforementioned problems.
[0004] Therefore, in order to improve or solve at least one of the above problems, it is necessary to optimize the existing drainage ditch and provide a segmented drainage system for the grinding and circulating water that can conveniently guide the production wastewater generated in the glass washing and grinding process to the raw water tank for sewage treatment, effectively reduce the sedimentation of glass powder in the drainage ditch, and help avoid the overflow of production wastewater. Utility Model Content
[0005] This utility model is designed to solve the aforementioned problems. Its purpose is to provide a segmented drainage system for the grinding and circulating water, which facilitates the direct discharge of production wastewater generated during the glass washing and grinding process into a wastewater treatment pool. This system effectively reduces glass powder sedimentation in the drainage ditch and helps prevent wastewater overflow. To achieve the above objective, the technical solution adopted by this utility model is as follows:
[0006] This utility model provides a segmented drainage system for edge grinding circulation, which includes a drainage ditch and a water storage tank drainage unit. The drainage ditch includes a first ditch and a second ditch. The water storage tank drainage unit is located between the first ditch and the second ditch. The end of the second ditch away from the first ditch is connected to the raw water tank for sewage treatment.
[0007] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: the water storage tank drainage unit includes a water storage tank, a drain pipe and a water pump. The water storage tank is located between the first water ditch and the second water ditch. One end of the drain pipe is located at the bottom of the water storage tank, and the other end of the drain pipe is connected to the sewage treatment raw water tank. The water pump is installed on the drain pipe.
[0008] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: the water storage tank drainage unit further includes an aeration component, which includes a blower and an aeration pipe. The blower is installed on the water storage tank, one end of the aeration pipe is connected to the blower, and the other end of the aeration pipe is located at the bottom of the water storage tank.
[0009] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following feature: an I-beam crossbeam is provided on the water storage tank, and a blower is installed on the I-beam crossbeam.
[0010] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: the drainage ditch further includes a first branch ditch and a second branch ditch, one end of the first branch ditch is connected to the first ditch, and the other end of the first branch ditch is connected to the water storage tank; one end of the second branch ditch is connected to the second ditch, and the other end of the second branch ditch is connected to the water storage tank.
[0011] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: a first gate is provided between the first water ditch and the second water ditch, a second gate is provided on the first branch water ditch, and a third gate is provided on the second branch water ditch.
[0012] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: the depth of one end of the first water ditch is 400mm and the depth of the other end is 2000mm, and it is sloped; the depth of one end of the second water ditch is 1200mm and the depth of the other end is 2000mm, and it is sloped.
[0013] The edge-grinding circulating water segmented drainage system provided by this utility model may also have the following features: the water storage tank is 4m long, 3m wide, and 4m deep.
[0014] The technical effects of this utility model are as follows: The grinding and circulating water segmented drainage system provided by this utility model includes a drainage ditch and a water storage tank drainage unit. The drainage ditch includes a first ditch and a second ditch. The water storage tank drainage unit is located between the first ditch and the second ditch. The end of the second ditch away from the first ditch is connected to the raw water tank for sewage treatment. The first ditch and the second ditch can guide the production wastewater from the grinding machine area ditch into the raw water tank for sewage treatment, which facilitates the discharge of production wastewater generated in the glass grinding process into the raw water tank for sewage treatment. Moreover, the first ditch and the second ditch have a longer span and a larger capacity, which can effectively reduce the sedimentation of glass powder in the drainage ditch and help avoid the overflow of production wastewater. At the same time, the water storage tank drainage unit can easily adjust the discharge mode of production wastewater according to the actual water consumption of the grinding machine, which helps to prevent the water flow at a distance from the drainage ditch from failing to carry away the glass powder when the actual water consumption decreases, causing the glass powder to settle at the bottom of the drainage ditch. Attached Figure Description
[0015] This manual includes the following figures, which illustrate the following:
[0016] Figure 1 This is a schematic diagram of the segmented drainage system for edge grinding circulation water in an embodiment of this utility model;
[0017] Figure 2 This is a schematic diagram of the structure of the water storage tank drainage unit in an embodiment of this utility model.
[0018] The following are marked on the diagram: Wastewater treatment raw water tank-1, drainage ditch-10, first ditch-11, second ditch-12, first tributary ditch-13, second tributary ditch-14, first gate-15, second gate-16, third gate-17, water storage tank drainage unit-20, water storage tank-21, drainage pipe-22, water pump-23, aeration assembly-24, blower-241, aeration pipe-242, and I-beam crossbeam-25. Detailed Implementation
[0019] 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.
[0020] Figure 1 This is a schematic diagram of the segmented drainage system for edge grinding circulation water in an embodiment of this utility model; Figure 2 This is a schematic diagram of the structure of the water storage tank drainage unit in an embodiment of this utility model.
[0021] like Figure 1 and Figure 2As shown, the grinding and circulating water segmented drainage system provided by this utility model includes a drainage ditch 10 and a water storage tank drainage unit 20. The drainage ditch 10 includes a first ditch 11 and a second ditch 12. The water storage tank drainage unit 20 is located between the first ditch 11 and the second ditch 12. The end of the second ditch 12 away from the first ditch 11 is connected to the wastewater treatment raw water tank 1. The first ditch 11 and the second ditch 12 can guide the production wastewater from the grinding machine area ditch into the wastewater treatment raw water tank 1, which facilitates the discharge of the production wastewater generated in the glass grinding process into the wastewater treatment raw water tank 1. Moreover, the first ditch 11 and the second ditch 12 have a longer span and a larger capacity, which can effectively reduce the sedimentation of glass powder in the drainage ditch 10 and help avoid the overflow of production wastewater. At the same time, the water storage tank drainage unit 20 can easily adjust the discharge mode of production wastewater according to the actual water consumption of the grinding machine, which helps to prevent the water flow at the far end of the drainage ditch from failing to carry away the glass powder when the actual water consumption decreases, causing the glass powder to settle at the bottom of the drainage ditch.
[0022] Drainage ditch 10 is 200m long. The first ditch 11 and the second ditch 12 are both 100m long. The first ditch has a depth of 400mm at one end and 2000mm at the other end, and is sloped. The second ditch has a depth of 1200mm at one end and 2000mm at the other end, and is also sloped. This increases the slope of the first ditch 11 and the second ditch 12, which helps to reduce the sedimentation of glass powder in drainage ditch 10.
[0023] like Figure 2 As shown, the water storage tank drainage unit 20 includes a water storage tank 21, a drainage pipe 22, and a water pump 23. The water storage tank 21 is located between the first water ditch 11 and the second water ditch 12. One end of the drainage pipe 22 is located at the bottom of the water storage tank 21, and the other end of the drainage pipe 22 is connected to the sewage treatment raw water tank 1. The water pump 23 is installed on the drainage pipe 22, so that the water pump 23 can discharge the production wastewater in the water storage tank 21 into the sewage treatment raw water tank 1. The water storage tank 21 is 4m long, 3m wide, and 4m deep.
[0024] The drainage ditch 10 also includes a first branch ditch 13 and a second branch ditch 14. One end of the first branch ditch 13 is connected to the first ditch 11, and the other end of the first branch ditch 11 is connected to the reservoir 21. One end of the second branch ditch 14 is connected to the second ditch 12, and the other end of the second branch ditch 14 is connected to the reservoir 21. The first branch ditch 13 is 2m deep, and the second branch ditch 14 is 1.2m deep. The first branch ditch 13 can guide the production wastewater in the first ditch 11 to the reservoir 21, and the second branch ditch 14 can guide the production wastewater in the reservoir 21 to the reservoir 21. Wastewater is directed to the second ditch 12. A first gate 15 is provided between the first ditch 11 and the second ditch 12 to control the flow of production wastewater between the first ditch 11 and the second ditch 12. A second gate 16 is provided on the first tributary ditch 13 to control the flow of production wastewater in the first tributary ditch 13. A third gate 17 is provided on the second tributary ditch 14 to control the flow of production wastewater in the second tributary ditch 14. The flow of production wastewater can be controlled through the first gate 15, the second gate 16 and the third gate 17.
[0025] The water storage tank drainage unit 20 also includes an aeration component 24, which includes a blower 241 and an aeration pipe 242. An I-beam crossbeam 25 is provided on the water storage tank 21, and the blower 241 is installed on the I-beam crossbeam 25. One end of the aeration pipe 242 is connected to the blower 241, and the other end of the aeration pipe 242 is located at the bottom of the water storage tank 21, so that the blower 241 can blow air into the bottom of the water storage tank 21. The end of the aeration pipe 242 away from the blower 241 is provided with multiple air holes, thereby realizing the aeration process, preventing glass powder from depositing in the water storage tank 21, and improving the reliability of the structure.
[0026] When discharging production wastewater using the grinding edge circulation water segmented drainage system provided by this utility model, based on past production experience data, it is determined whether the actual water consumption of the grinding mill is too low, normal, or too high. When the actual water consumption of the grinding mill is too low, the first gate 15 is closed, the second gate 16 is opened, and the third gate 17 is closed. The production wastewater flows into the storage tank 21 through the first water ditch 11, and then is pumped by the water pump 23 to the raw wastewater treatment tank 1. When the actual water consumption of the grinding mill is normal, the first gate 15 is opened, the second gate 16 is opened, and the third gate 17 is opened. Some of the production wastewater flows into the second water ditch 12 through the first water ditch 11, and then into the raw wastewater treatment tank 1. Inside, another part of the production wastewater flows into the storage tank 21 through the first branch ditch 13, and then leaves the storage tank 21 through the second branch ditch 14. When the actual water consumption of the grinding machine is too high, the first gate 15 opens, the second gate 16 opens, and the third gate 17 closes. Some of the production wastewater flows into the second ditch 12 through the first ditch 11, and then into the raw water tank 1 for sewage treatment. The other part of the production wastewater flows into the storage tank 21 through the first branch ditch 13. The production wastewater in the storage tank 21 is pumped into the raw water tank 1 for sewage treatment by the water pump 23. This process adapts to the actual water consumption of the grinding machine, which can effectively reduce the sedimentation of glass powder in the drainage ditch 10 and help avoid the overflow of production wastewater.
[0027] The role and effect of the embodiments
[0028] The grinding and edging circulating water segmented drainage system provided by this utility model includes a drainage ditch 10 and a water storage tank drainage unit 20. The drainage ditch 10 includes a first ditch 11 and a second ditch 12. The water storage tank drainage unit 20 is located between the first ditch 11 and the second ditch 12. The end of the second ditch 12 away from the first ditch 11 is connected to the wastewater treatment raw water tank 1. The first ditch 11 and the second ditch 12 can guide the production wastewater from the grinding machine area ditch into the wastewater treatment raw water tank 1, which facilitates the discharge of the production wastewater generated in the glass grinding process into the wastewater treatment raw water tank 1. Moreover, the first ditch 11 and the second ditch 12 have a longer span and a larger capacity, which can effectively reduce the sedimentation of glass powder in the drainage ditch 10 and help avoid the overflow of production wastewater. At the same time, the water storage tank drainage unit 20 can easily adjust the discharge mode of production wastewater according to the actual water consumption of the grinding machine, which helps to prevent the water flow at the far end of the drainage ditch from failing to carry away the glass powder when the actual water consumption decreases, causing the glass powder to settle at the bottom of the drainage ditch.
[0029] When discharging production wastewater using the grinding edge circulation water segmented drainage system provided by this utility model, based on past production experience data, it is determined whether the actual water consumption of the grinding mill is too low, normal, or too high. When the actual water consumption of the grinding mill is too low, the first gate 15 is closed, the second gate 16 is opened, and the third gate 17 is closed. The production wastewater flows into the storage tank 21 through the first water ditch 11, and then is pumped by the water pump 23 to the raw wastewater treatment tank 1. When the actual water consumption of the grinding mill is normal, the first gate 15 is opened, the second gate 16 is opened, and the third gate 17 is opened. Some of the production wastewater flows into the second water ditch 12 through the first water ditch 11, and then into the raw wastewater treatment tank 1. Inside, another part of the production wastewater flows into the storage tank 21 through the first branch ditch 13, and then leaves the storage tank 21 through the second branch ditch 14. When the actual water consumption of the grinding machine is too high, the first gate 15 opens, the second gate 16 opens, and the third gate 17 closes. Some of the production wastewater flows into the second ditch 12 through the first ditch 11, and then into the raw water tank 1 for sewage treatment. The other part of the production wastewater flows into the storage tank 21 through the first branch ditch 13. The production wastewater in the storage tank 21 is pumped into the raw water tank 1 for sewage treatment by the water pump 23. This process adapts to the actual water consumption of the grinding machine, which can effectively reduce the sedimentation of glass powder in the drainage ditch 10 and help avoid the overflow of production wastewater.
[0030] 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 segmented drainage system for grinding edge circulating water, characterized in that, It includes a drainage ditch (10) and a water storage tank drainage unit (20). The drainage ditch (10) includes a first ditch (11) and a second ditch (12). The water storage tank drainage unit (20) is located between the first ditch (11) and the second ditch (12). The end of the second ditch (12) away from the first ditch (11) is connected to the sewage treatment raw water tank (1).
2. The edge grinding circulating water segmented drainage system according to claim 1, characterized in that, The water storage tank drainage unit (20) includes a water storage tank (21), a drainage pipe (22) and a water pump (23). The water storage tank (21) is located between the first water ditch (11) and the second water ditch (12). One end of the drainage pipe (22) is located at the bottom of the water storage tank (21), and the other end of the drainage pipe (22) is connected to the sewage treatment raw water tank (1). The water pump (23) is installed on the drainage pipe (22).
3. The edge grinding circulating water segmented drainage system according to claim 2, characterized in that, The water storage tank drainage unit (20) also includes an aeration component (24), which includes a blower (241) and an aeration pipe (242). The blower (241) is installed on the water storage tank (21), one end of the aeration pipe (242) is connected to the blower (241), and the other end of the aeration pipe (242) is located at the bottom of the water storage tank (21).
4. The edge grinding circulating water segmented drainage system according to claim 3, characterized in that, The water storage tank (21) is provided with an I-beam crossbeam (25), and the blower (241) is installed on the I-beam crossbeam (25).
5. The edge grinding circulating water segmented drainage system according to claim 4, characterized in that, The drainage ditch (10) also includes a first branch ditch (13) and a second branch ditch (14). One end of the first branch ditch (13) is connected to the first ditch (11), and the other end of the first branch ditch (13) is connected to the reservoir (21). One end of the second branch ditch (14) is connected to the second ditch (12), and the other end of the second branch ditch (14) is connected to the reservoir (21).
6. The edge grinding circulating water segmented drainage system according to claim 5, characterized in that, A first gate (15) is provided between the first ditch (11) and the second ditch (12), a second gate (16) is provided on the first tributary ditch (13), and a third gate (17) is provided on the second tributary ditch (14).
7. The edge grinding circulating water segmented drainage system according to claim 1, characterized in that, The first ditch (11) has a depth of 400mm at one end and a depth of 2000mm at the other end, and is sloped; the second ditch (12) has a depth of 1200mm at one end and a depth of 2000mm at the other end, and is sloped.
8. The edge grinding circulating water segmented drainage system according to claim 2, characterized in that, The reservoir (21) is 4m long, 3m wide and 4m deep.