A glass washing machine cleaning and drainage system
By designing a separate drainage system for clean and dirty water in the glass washing machine, and using pipelines and valve assemblies to control the water flow, the problem of increased load on wastewater treatment equipment was solved, and the effects of reducing chemical usage and extending equipment life were achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ANHUI XINYI PHOTOVOLTAIC GLASS CO LTD
- Filing Date
- 2025-08-07
- Publication Date
- 2026-06-30
AI Technical Summary
During the production of tempered glass, the wastewater generated by the glass washing machine goes directly into the wastewater treatment equipment, which increases the equipment load, the amount of chemicals used, and the production costs and equipment wear.
Design a wastewater and cleaning water separation and drainage system for a glass washing machine. By rationally controlling the water flow direction through pipeline components and valve components, the system separates wastewater and cleaning water, thereby reducing the amount of chemicals used in wastewater treatment equipment and the equipment load.
It effectively reduces the amount of chemicals used in sewage treatment equipment, lowers production costs, extends equipment lifespan, and reduces equipment wear.
Smart Images

Figure CN224431586U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of wastewater treatment in tempered glass production. Specifically, this utility model relates to a wastewater separation and drainage system for a glass washing machine. Background Technology
[0002] In the automated glass production process of the tempering workshop, glass washing and polishing are involved, both of which generate production wastewater. Generally, the water pipes of the cleaning machine are directly connected to the large washing and polishing ditch and then to the raw water tank for wastewater treatment. The glass cleaning machine has two stages: pre-spraying and pure water brush cleaning. The pre-spraying stage generates wastewater containing glass powder, while the pure water brush cleaning uses pure water, and the water produced after the pre-spraying stage is relatively clean. Connecting all the wastewater generated by the cleaning machine to the raw water tank will increase the load on the wastewater treatment equipment. In addition to increasing the amount of water to be treated, it will also increase the amount of chemicals used in the wastewater treatment raw water tank, thereby increasing costs.
[0003] To address the aforementioned issues, patent application number 2023218841913 provides a circulating water supply device for a broken glass washing machine and the broken glass washing machine itself, comprising: a sedimentation tank; a first baffle and a second baffle, the first and second baffles being disposed within the sedimentation tank to sequentially divide the sedimentation tank into a first sedimentation tank, a transition tank, and a second sedimentation tank; an overflow port on the top of the first baffle to overflow water from the first sedimentation tank into the transition tank; and a drainage channel on the bottom of the second baffle to drain water from the transition tank into the second sedimentation tank; the first sedimentation tank being connected to the drain outlet of the washing tank of the broken glass washing machine; a grid screen, disposed within the second sedimentation tank, dividing the second sedimentation tank into an upper cavity and a lower cavity that are interconnected vertically; a water outlet, disposed within the upper cavity; and a water pump unit, the water outlet being connected to the water inlet of the washing tank of the broken glass washing machine via the water pump unit. However, this method fails to solve the aforementioned problems.
[0004] Therefore, in order to improve or solve at least one of the above problems, a glass washing machine cleaning and wastewater separation drainage system is provided that can reasonably control the flow direction of production water, effectively reduce the amount of wastewater treatment chemicals, effectively reduce the load on the raw wastewater treatment tank, protect the wastewater treatment equipment, reduce the wear and tear on the wastewater treatment equipment, and extend the service life of the wastewater treatment equipment. Utility Model Content
[0005] This utility model is designed to solve the aforementioned problems. Its purpose is to provide a glass washing machine cleaning and wastewater separation drainage system that can rationally control the flow direction of production water, effectively reduce the amount of wastewater treatment chemicals used, effectively reduce the load on the raw wastewater treatment tank, protect wastewater treatment equipment, reduce wear and tear on the equipment, and extend its service life. To achieve the above objectives, the technical solution adopted by this utility model is as follows:
[0006] This utility model provides a cleaning and drainage system for a glass washing machine, characterized by including a front cleaning machine ditch, a rear cleaning machine ditch, a wastewater treatment raw water tank, a cleaning water collection tank, and a pipeline assembly. The front cleaning machine ditch, the rear cleaning machine ditch, the wastewater treatment raw water tank, and the cleaning water collection tank are connected by the pipeline assembly, and the pipeline assembly is equipped with a valve assembly.
[0007] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the pipeline assembly includes a first main pipeline and a second main pipeline. One end of the first main pipeline is connected to the raw water tank for sewage treatment, and the other end of the first main pipeline is connected to the water ditch of the post-furnace cleaning machine. One end of the second main pipeline is connected to the raw water tank for sewage treatment, and the other end of the second main pipeline is connected to the water ditch of the post-furnace cleaning machine.
[0008] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the pipeline assembly further includes a first branch pipe and a second branch pipe, one end of the first branch pipe is connected to the first main pipe, and the other end of the first branch pipe is connected to the water ditch of the furnace cleaning machine; one end of the second branch pipe is connected to the second main pipe, and the other end of the first branch pipe is connected to the water ditch of the furnace cleaning machine.
[0009] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the pipeline assembly further includes a third branch pipe and a fourth branch pipe. One end of the third branch pipe is connected to the first main pipe, and the other end of the third branch pipe is connected to the cleaning water collection tank; one end of the fourth branch pipe is connected to the first main pipe, and the other end of the fourth branch pipe is connected to the cleaning water collection tank.
[0010] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the pipeline assembly further includes a fifth branch pipe and a sixth branch pipe. One end of the fifth branch pipe is connected to the second main pipe, and the other end of the fifth branch pipe is connected to the cleaning water collection tank; one end of the sixth branch pipe is connected to the second main pipe, and the other end of the sixth branch pipe is connected to the cleaning water collection tank.
[0011] The glass washing machine cleaning and drainage system provided by this utility model may also have the following features: the valve assembly includes a first turbine butterfly valve and a second turbine butterfly valve. The first turbine butterfly valve is located on the first main pipeline at one end near the raw water tank of the sewage treatment plant, and the second turbine butterfly valve is located on the second main pipeline at one end near the raw water tank of the sewage treatment plant.
[0012] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the valve assembly further includes a first three-way valve and a second three-way valve. The first three-way valve is located at the connection between the third branch pipe and the first main pipe, and the second three-way valve is located at the connection between the fourth branch pipe and the first main pipe.
[0013] The glass cleaning machine cleaning and drainage system provided by this utility model may also have the following features: the valve assembly further includes a third three-way valve and a fourth three-way valve. The third three-way valve is located at the connection between the fifth branch pipe and the second main pipe, and the fourth three-way valve is located at the connection between the sixth branch pipe and the second main pipe.
[0014] The technical effects of this utility model are as follows: The glass cleaning machine cleaning and drainage system provided by this utility model includes a front cleaning machine ditch, a rear cleaning machine ditch, a wastewater treatment raw water tank, a cleaning water collection tank, and a pipeline assembly. The front cleaning machine ditch, the rear cleaning machine ditch, the wastewater treatment raw water tank, and the cleaning water collection tank are connected by the pipeline assembly. The pipeline assembly is equipped with a valve assembly. Through the pipeline assembly and the valve assembly, the flow direction of the production water can be reasonably controlled, which can effectively reduce the amount of wastewater treatment chemicals used and the load on the wastewater treatment raw water tank. This helps to reduce production costs, protect the wastewater treatment equipment, reduce wear and tear on the wastewater treatment equipment, and extend the service life of the wastewater treatment equipment. Attached Figure Description
[0015] This manual includes the following figures, which illustrate the following:
[0016] Figure 1 This is a schematic diagram of the cleaning and drainage system of the glass washing machine in an embodiment of this utility model. The components are labeled as follows: First collection well-1, Second collection well-2, Front cleaning machine ditch-10, Rear cleaning machine ditch-20, Wastewater treatment raw water tank-30, Cleaning water collection tank-40, Pipeline assembly-50, First main pipe-51, Second main pipe-52, First branch pipe-53, Second branch pipe-54, Third branch pipe-55, Fourth branch pipe-56, Fifth branch pipe-57, Sixth branch pipe-58, Valve assembly-60, First turbine butterfly valve-61, Second turbine butterfly valve-62, First three-way valve-63, Second three-way valve-64, Third three-way valve-65, Fourth three-way valve-66. 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 1This is a schematic diagram of the structure of the cleaning and drainage system of the glass washing machine in an embodiment of this utility model.
[0019] like Figure 1 As shown, the glass washing machine cleaning and drainage system provided by this utility model includes a pre-furnace cleaning machine ditch 10, a post-furnace cleaning machine ditch 20, a wastewater treatment raw water tank 30, a cleaning water collection tank 40, and a pipeline assembly 50. The pre-furnace cleaning machine ditch 10, the post-furnace cleaning machine ditch 20, the wastewater treatment raw water tank 30, and the cleaning water collection tank 40 are connected by the pipeline assembly 50. The pipeline assembly 50 is equipped with a valve assembly 60. Through the pipeline assembly 50 and the valve assembly 60, the flow direction of the production water can be reasonably controlled, which can effectively reduce the amount of chemical water used in wastewater treatment, effectively reduce the load on the wastewater treatment raw water tank, help reduce production costs, protect the wastewater treatment equipment, reduce the wear and tear of the wastewater treatment equipment, and extend the service life of the wastewater treatment equipment.
[0020] The pipeline assembly 50 includes a first main pipeline 51 and a second main pipeline 52. One end of the first main pipeline 51 is connected to the raw wastewater treatment tank 30, and the other end of the first main pipeline 51 is connected to the furnace cleaning machine ditch 20. One end of the second main pipeline 52 is connected to the raw wastewater treatment tank 30, and the other end of the second main pipeline 52 is connected to the furnace cleaning machine ditch 20, thereby realizing the connection between the furnace cleaning machine ditch 20 and the raw wastewater treatment tank 30, and realizing the flow of production water between the furnace cleaning machine ditch 20 and the raw wastewater treatment tank 30.
[0021] Piping assembly 50 also includes a first branch pipe 53 and a second branch pipe 54. One end of the first branch pipe 53 is connected to the first main pipe 51, and the other end of the first branch pipe 53 is connected to the furnace front cleaning machine ditch 10. One end of the second branch pipe 54 is connected to the second main pipe, and the other end of the second branch pipe 54 is connected to the furnace front cleaning machine ditch 10. Piping assembly 50 also includes a third branch pipe 55 and a fourth branch pipe 56. One end of the third branch pipe 55 is connected to the first main pipe 51, and the other end of the third branch pipe 55 is connected to the cleaning water collection tank 40. One end of the fourth branch pipe 56 is connected to the furnace front cleaning machine ditch 10. The first main pipe 51 is connected, and the other end of the fourth branch pipe is connected to the cleaning water collection tank 40; the pipeline assembly 50 also includes a fifth branch pipe 57 and a sixth branch pipe 58. One end of the fifth branch pipe 57 is connected to the second main pipe 52, and the other end of the fifth branch pipe 57 is connected to the cleaning water collection tank 40. One end of the sixth branch pipe 58 is connected to the second main pipe 52, and the other end of the sixth branch pipe 58 is connected to the cleaning water collection tank 40, thereby realizing the connection of the furnace front cleaning machine ditch 10, the furnace rear cleaning machine ditch 20, the sewage treatment raw water tank 30 and the cleaning water collection tank 40.
[0022] The valve assembly 60 includes a first turbine butterfly valve 61 and a second turbine butterfly valve 62. The first turbine butterfly valve 61 is located on the first main pipeline 51 near the end of the wastewater treatment raw water tank 30, and the second turbine butterfly valve 62 is located on the second main pipeline 52 near the end of the wastewater treatment raw water tank 30. The first turbine butterfly valve 61 and the second turbine butterfly valve 62 can respectively control whether the production water in the first main pipeline 51 and the second main pipeline 52 flows into the wastewater treatment raw water tank 30 for treatment.
[0023] Valve assembly 60 also includes a first three-way valve 63 and a second three-way valve 64. The first three-way valve 63 is located at the connection between the third branch pipe 55 and the first main pipe 51, and the second three-way valve 64 is located at the connection between the fourth branch pipe 56 and the first main pipe 51. Valve assembly 60 also includes a third three-way valve 65 and a fourth three-way valve 66. The third three-way valve 65 is located at the connection between the fifth branch pipe 57 and the second main pipe 52, and the fourth three-way valve 66 is located at the connection between the sixth branch pipe 58 and the second main pipe 52.
[0024] When the cleaning machine is turned on, the wastewater generated by the pre-spraying of the furnace front cleaning machine and the water spilled on the ground are guided through the furnace front cleaning machine water ditch 10 to the first water collection well 1. The first water collection well 1 is connected to the end of the first branch pipe 53 away from the first main pipe 51. The cleaning water generated by the pure water cleaning at the rear end is connected through a PVC pipe to the end of the second branch pipe 54 away from the second main pipe 52. The wastewater generated by the pre-spraying of the furnace rear cleaning machine and the water spilled on the ground are guided through the furnace rear cleaning machine water ditch 20 to the second water collection well 2. The second water collection well 2 is connected to one end of the first main pipe 51. The cleaning water generated by the pure water cleaning at the rear end is connected through a PVC pipe to one end of the second main pipe 52.
[0025] The first turbine butterfly valve 61 is open, the valve on the first three-way valve 63 located on the first main pipeline 51 is open, and the valve on the third branch pipeline 55 is closed. The valve on the second three-way valve 64 located on the first main pipeline 51 is open, and the valve on the fourth branch pipeline 56 is closed. Wastewater generated by the pre-spraying of the furnace front cleaning machine and the furnace rear cleaning machine flows to the wastewater treatment raw water tank 30 through the first main pipeline 51. When the valves on the three branch pipes 55 are closed, the wastewater generated by the pre-spraying of the furnace front cleaning machine flows to the wastewater treatment raw water tank 30 through the first branch pipe 53 and the first main pipe 51, and the wastewater generated by the pre-spraying of the furnace rear cleaning machine flows to the cleaning water collection tank 40 through the first main pipe 51; the first turbine butterfly valve 61 is closed, the valve on the first main pipe 51 of the first three-way valve 63 is open, the valve on the third branch pipe 55 is open, the valve on the first main pipe 51 of the second three-way valve 64 is open, and the valve on the fourth branch pipe 56 is open, so that all the wastewater generated by the furnace front cleaning machine and the pre-spraying of the furnace rear cleaning machine flows to the cleaning water collection tank 40.
[0026] The second turbine butterfly valve 62 is open, the third three-way valve 65 on the second main pipeline 52 is open, and the valve on the fifth branch pipe 57 is closed. The fourth three-way valve 66 on the second main pipeline 52 is open, and the valve on the sixth branch pipe 58 is closed. The cleaning water generated by the pure water cleaning of the furnace front cleaning machine and the furnace rear cleaning machine flows to the sewage treatment raw water tank 30 through the second main pipeline 52. When the furnace front cleaning machine is turned on, the cleaning water generated by the pure water cleaning at the rear end of the furnace front cleaning machine flows to the sewage treatment raw water tank 30 through the second branch pipe 54 and the second main pipe 52. The cleaning water generated by the pure water cleaning at the rear end of the furnace rear cleaning machine flows to the cleaning water collection tank 40 through the second main pipe 52. The second turbine butterfly valve 62 is closed, the valve on the third three-way valve 65 on the second main pipe 52 is open, the valve on the fifth branch pipe 57 is open, the valve on the fourth three-way valve 66 on the second main pipe 52 is open, and the valve on the sixth branch pipe 58 is open. The cleaning water generated by the pure water cleaning of the furnace front cleaning machine and the furnace rear cleaning machine flows to the cleaning water collection tank 40 through the second main pipe 52.
[0027] By controlling the state of valve assembly 60, the flow direction of production water can be reasonably controlled, the amount of wastewater treatment chemicals can be effectively reduced, the load on the raw wastewater treatment tank can be effectively reduced, production costs can be reduced, wastewater treatment equipment can be protected, wear and tear on wastewater treatment equipment can be reduced, and the service life of wastewater treatment equipment can be extended.
[0028] The role and effect of the embodiments
[0029] The glass washing machine cleaning and drainage system provided by this utility model includes a front cleaning machine ditch 10, a rear cleaning machine ditch 20, a wastewater treatment raw water tank 30, a cleaning water collection tank 40, and a pipeline assembly 50. The front cleaning machine ditch 10, the rear cleaning machine ditch 20, the wastewater treatment raw water tank 30, and the cleaning water collection tank 40 are connected by the pipeline assembly 50. The pipeline assembly 50 is equipped with a valve assembly 60. Through the pipeline assembly 50 and the valve assembly 60, the flow direction of the production water can be reasonably controlled, which can effectively reduce the amount of chemical water used in wastewater treatment, effectively reduce the load on the wastewater treatment raw water tank, help reduce production costs, protect the wastewater treatment equipment, reduce the wear and tear of the wastewater treatment equipment, and extend the service life of the wastewater treatment equipment.
[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 cleaning and drainage system for a glass washing machine, characterized in that, It includes a pre-furnace cleaning machine ditch (10), a post-furnace cleaning machine ditch (20), a wastewater treatment raw water tank (30), a cleaning water collection tank (40), and a pipeline assembly (50). The pre-furnace cleaning machine ditch (10), the post-furnace cleaning machine ditch (20), the wastewater treatment raw water tank (30), and the cleaning water collection tank (40) are connected by the pipeline assembly (50). The pipeline assembly (50) is equipped with a valve assembly (60).
2. The glass washing machine cleaning and drainage system according to claim 1, characterized in that, The pipeline assembly (50) includes a first main pipeline (51) and a second main pipeline (52). One end of the first main pipeline (51) is connected to the raw water tank (30) for wastewater treatment, and the other end of the first main pipeline (51) is connected to the water ditch (20) for the furnace cleaning machine. One end of the second main pipeline (52) is connected to the raw water tank (30) for wastewater treatment, and the other end of the second main pipeline (52) is connected to the water ditch (20) for the furnace cleaning machine.
3. The glass washing machine cleaning and wastewater separation drainage system according to claim 2, characterized in that, The pipeline assembly (50) further includes a first branch pipe (53) and a second branch pipe (54). One end of the first branch pipe (53) is connected to the first main pipeline (51), and the other end of the first branch pipe (53) is connected to the furnace front cleaning machine ditch (10). One end of the second branch pipe (54) is connected to the second main pipeline (52), and the other end of the first branch pipe (53) is connected to the furnace front cleaning machine ditch (10).
4. The glass washing machine cleaning and wastewater separation drainage system according to claim 3, characterized in that, The piping assembly (50) further includes a third branch pipe (55) and a fourth branch pipe (56). One end of the third branch pipe (55) is connected to the first main pipe (51), and the other end of the third branch pipe (55) is connected to the cleaning water collection tank (40). One end of the fourth branch pipe (56) is connected to the first main pipe (51), and the other end of the fourth branch pipe (56) is connected to the cleaning water collection tank (40).
5. The glass washing machine cleaning and wastewater separation drainage system according to claim 4, characterized in that, The pipeline assembly (50) further includes a fifth branch pipe (57) and a sixth branch pipe (58). One end of the fifth branch pipe (57) is connected to the second main pipeline (52), and the other end of the fifth branch pipe (57) is connected to the cleaning water collection tank (40). One end of the sixth branch pipe (58) is connected to the second main pipeline (52), and the other end of the sixth branch pipe (58) is connected to the cleaning water collection tank (40).
6. The glass washing machine cleaning and wastewater separation drainage system according to claim 5, characterized in that, The valve assembly (60) includes a first turbine butterfly valve (61) and a second turbine butterfly valve (62). The first turbine butterfly valve (61) is located on the first main pipeline (51) near the end of the sewage treatment raw water tank (30), and the second turbine butterfly valve (62) is located on the second main pipeline (52) near the end of the sewage treatment raw water tank (30).
7. The glass washing machine cleaning and wastewater separation drainage system according to claim 6, characterized in that, The valve assembly (60) further includes a first three-way valve (63) and a second three-way valve (64). The first three-way valve (63) is located at the connection between the third branch pipe (55) and the first main pipe (51), and the second three-way valve (64) is located at the connection between the fourth branch pipe (56) and the first main pipe (51).
8. The glass washing machine cleaning and wastewater separation drainage system according to claim 7, characterized in that, The valve assembly (60) further includes a third three-way valve (65) and a fourth three-way valve (66). The third three-way valve (65) is located at the connection between the fifth branch pipe (57) and the second main pipe (52), and the fourth three-way valve (66) is located at the connection between the sixth branch pipe (58) and the second main pipe (52).