CN219517894U - Glass production water saving system capable of recycling circulating water - Google Patents

Glass production water saving system capable of recycling circulating water Download PDF

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Publication number
CN219517894U
CN219517894U CN202320461926.5U CN202320461926U CN219517894U CN 219517894 U CN219517894 U CN 219517894U CN 202320461926 U CN202320461926 U CN 202320461926U CN 219517894 U CN219517894 U CN 219517894U
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sedimentation tank
water
mounting plate
communicated
trapezoid
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於利军
陈冬
陈丽
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Hangzhou Huijing Glass Co ltd
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Hangzhou Huijing Glass Co ltd
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Abstract

The glass production water-saving system capable of recycling the circulating water can treat the wastewater generated in the glass production process, and realize the recycling of the wastewater; the device comprises a first sedimentation tank, a second sedimentation tank and a third sedimentation tank; the upper end of the first sedimentation tank is communicated with the second sedimentation tank through a pipeline; the upper end of the second sedimentation tank is communicated with a third sedimentation tank through a pipeline; the first sedimentation tank is provided with a water inlet communicated with a water discharge tank in the production workshop; a water pumping port is arranged on the second sedimentation tank and is communicated with a reservoir in the production workshop through a water pump; a water outlet communicated with an external industrial wastewater tank is arranged on the third sedimentation tank; the second sedimentation tank is positioned below the water pumping port and is provided with a liquid flow dispersing device; the liquid flow dispersing device comprises trapezoid plates and inverted trapezoid plates which are arranged in a staggered manner; the lower end position of the trapezoid plate is lower than the upper end position of the inverted trapezoid plate; the lower ends of the first sedimentation tank, the second sedimentation tank and the third sedimentation tank are communicated with a filter press through a slurry pump.

Description

Glass production water saving system capable of recycling circulating water
Technical Field
The utility model relates to the technical field of glass production, in particular to a water-saving system for glass production, which is capable of recycling circulating water.
Background
In the production and manufacturing process of glass, an edge grinding machine is required to grind edges of the formed glass, and water is required to be sprayed to the edge grinding position during edge grinding, so that the damage to the glass caused by overhigh temperature during edge grinding is avoided; after the glass is deeply processed, the glass finished product is also required to be cleaned, and glass scraps remained on the surface of the glass are washed away. If tap water is used in the edging and cleaning processes of the glass, and the used waste water is discharged to an industrial waste water tank, 300 tons of tap water is used at least every day, the cost is very high, serious waste of water resources is caused, and the method is an effective method for saving water and reducing the cost and recycling the water resources. However, glass powder (i.e., glass fine particles) is carried in waste water after edging and cleaning, and if the waste water is directly used, the surface of glass may be scratched; therefore, these waste waters need to be treated accordingly before being put into use again.
Disclosure of Invention
The utility model aims to provide a water-saving system for glass production, which is capable of recycling circulating water, and is used for treating wastewater generated in the glass production process, so that the wastewater can be recycled, and the waste of water resources is avoided. According to the glass production water-saving system for recycling the circulating water, the two sedimentation tanks are arranged for carrying out sedimentation separation on the wastewater, so that glass powder in the wastewater can be fully separated, the quality of the extracted circulating water is guaranteed, the redundant wastewater flows into the third sedimentation tank for further sedimentation and then is discharged to the outside, and the wastewater is basically pollution-free and does not pollute the environment; in addition, be equipped with liquid flow dispersion devices in pumping mouth department, can make the rivers that flow to the pumping mouth obtain dispersing, avoid because of local water velocity is too fast, form the disturbance in the sedimentation tank, influence the quality of water of taking out.
The technical scheme of the utility model is as follows: the glass production water-saving system for recycling the circulating water comprises a first sedimentation tank, a second sedimentation tank and a third sedimentation tank; the upper end of the first sedimentation tank is communicated with the second sedimentation tank through a pipeline; the upper end of the second sedimentation tank is communicated with a third sedimentation tank through a pipeline; the first sedimentation tank is provided with a water inlet, the second sedimentation tank is provided with a water pumping port, and the third sedimentation tank is provided with a water outlet; the second sedimentation tank is positioned below the water pumping port and is provided with a liquid flow dispersing device; the liquid flow dispersing device comprises a first mounting plate and a second mounting plate which are connected with the second sedimentation tank, and a group of trapezoid plates and a group of inverted trapezoid plates which are arranged at intervals and between the first mounting plate and the second mounting plate; the trapezoid plates and the inverted trapezoid plates are arranged in a staggered mode, and the lower end position of each trapezoid plate is lower than the upper end position of each inverted trapezoid plate; the surface of the first mounting plate is contacted with the inner wall of the second sedimentation tank; the lower ends of the first sedimentation tank, the second sedimentation tank and the third sedimentation tank are respectively communicated with a slurry pump; the slurry pump is connected with the filter press; the water inlet is communicated with a water draining pool in the production workshop, the water pumping port is communicated with a water reservoir in the production workshop through a water pump, and the water draining port is communicated with an external industrial wastewater pool.
Compared with the prior art, the glass production water-saving system for recycling the circulating water has the advantages that the two sedimentation tanks are arranged to carry out sedimentation separation on the wastewater, so that glass powder in the wastewater can be fully separated, the quality of the extracted circulating water is ensured, the extracted circulating water meets the requirement of industrial circulating water, the recycling of the wastewater can be realized, the waste of water resources is avoided, the redundant wastewater flows into the third sedimentation tank to be further sedimentated, and then is discharged outdoors, and the wastewater is basically pollution-free and does not pollute the environment; the liquid flow dispersing device is arranged at the water pumping port, so that water flowing to the water pumping port can be dispersed, disturbance caused by too high local water flow speed in the sedimentation tank is avoided, and the extracted water quality is influenced (if the liquid flow dispersing device is not arranged, the sedimentation tank is additionally arranged for further sedimentation to ensure the water quality of the extracted circulating water and then the water can be used for production, so that the occupied area of the system is increased); in addition, the lower ends of the three sedimentation tanks are respectively communicated with a slurry pump, so that glass powder at the bottom can be sucked into a filter press through the slurry pump for treatment, and the glass powder is changed into fixed glass slag, so that the subsequent treatment is facilitated.
As an optimizationIn the above-mentioned glass production water saving system for recycling circulating water, the distance D between two adjacent trapezoid plates 1 May be 1-3cm; distance D between two adjacent inverted trapezoidal plates 2 Can be 1-3cm; the distance D between the lower end of the trapezoid plate and the bottom of the inverted trapezoid plate 3 May be 1-3cm.
As optimization, in the glass production water saving system for recycling the circulating water, the first mounting plate comprises a first upper mounting plate and a first lower mounting plate which are detachably connected; the second mounting plate comprises a second upper mounting plate and a second lower mounting plate which are detachably connected; the first upper mounting plate and the second upper mounting plate are respectively and fixedly connected with two ends of the trapezoid plate; the first lower mounting plate and the second lower mounting plate are fixedly connected with two ends of the inverted trapezoid plate respectively. At this time, the liquid flow dispersing device can be split into an upper structure and a lower structure, is convenient to clean and is easy to manufacture.
As optimization, in the glass production water saving system for recycling the circulating water, the top of the second upper mounting plate is flush with the top of the second sedimentation tank. Therefore, water can be prevented from flowing from the upper part of the liquid flow dispersing device in the water pumping process, and the using effect of the liquid flow dispersing device is prevented from being influenced.
In the water-saving system for glass production, which is used for recycling the circulating water, the second lower mounting plate is hinged with the inner wall of the second sedimentation tank. Therefore, when glass powder is piled up on the surfaces of the trapezoid plate and the inverted trapezoid plate, the whole liquid flow dispersing device can be pushed to rotate a certain angle relative to the second sedimentation tank, and then the glass powder is washed away by water, so that the operation is very convenient. Further, the first lower mounting plate is provided with a 7-shaped push rod, and the push rod is hung on the pool edge of the second sedimentation pool. Therefore, the push rod can be grasped by hands to push the liquid flow dispersing device, and the operation is more labor-saving.
As optimization, in the glass production water saving system for recycling the circulating water, the first upper mounting plate and the first lower mounting plate are fixed through clamping; the second upper mounting plate is fixedly connected with the second lower mounting plate through threads. At this time, the disassembly and assembly are convenient.
Drawings
FIG. 1 is a schematic diagram of a system for saving water in glass production by recycling circulating water according to the present utility model;
FIG. 2 is a schematic diagram of the distribution of three settling tanks in the present utility model;
FIG. 3 is a schematic view of the structure of the liquid flow dispersing device of the present utility model;
FIG. 4 is a rotational view of the flow dispersing device of the present utility model;
FIG. 5 is a schematic view of the lower manifold assembly of the present utility model;
FIG. 6 is a schematic view of the structure of the upper manifold assembly of the present utility model;
FIG. 7 is a schematic bottom view of a liquid flow dispersing device of the present utility model;
fig. 8 is a cross-sectional view taken along A-A in fig. 7.
The marks in the drawings are: 1-a first sedimentation tank, 101-a water inlet; 2-a second sedimentation tank, 201-a water pumping port; 3-a third sedimentation tank, 301-a water outlet; 4-piping; 5-liquid flow dispersing device, 501-trapezoid plate, 502-inverted trapezoid plate, 503-first upper mounting plate, 5031-fixture block, 504-first lower mounting plate, 5041-fixture groove, 505-second upper mounting plate, 5051-A mounting lug, 506-second lower mounting plate, 5061-B mounting lug, 507-push rod; 6-a slurry pump; 7-a filter press.
Detailed Description
The utility model is further illustrated by the following figures and examples, which are not intended to be limiting.
Referring to fig. 1 to 8, the water saving system for glass production of recycling circulating water of the present utility model comprises a first sedimentation tank 1, a second sedimentation tank 2 and a third sedimentation tank 3 which are sequentially arranged from top to bottom; the upper end of the first sedimentation tank 1 is communicated with the second sedimentation tank 2 through a pipeline 4; the upper end of the second sedimentation tank 2 is communicated with the third sedimentation tank 3 through a pipeline 4; a water inlet 101 is formed in the first sedimentation tank 1, a water pumping port 201 is formed in the second sedimentation tank 2, and a water outlet 301 is formed in the third sedimentation tank 3; the second sedimentation tank 2 is arranged below the water pumping port 201 and is provided with a liquid flow dispersing device 5; the liquid flow dispersing device 5 comprises a first mounting plate and a second mounting plate which are connected with the second sedimentation tank 2, a group of trapezoid plates 501 arranged at intervals and a group of inverted trapezoid plates 502 arranged at intervals and arranged between the first mounting plate and the second mounting plate; the trapezoid plates 501 and the inverted trapezoid plates 502 are arranged in a staggered mode, and the lower end position of the trapezoid plate 501 is lower than the upper end position of the inverted trapezoid plate 502; the surface of the first mounting plate is contacted with the inner wall of the second sedimentation tank 2; the lower ends of the first sedimentation tank 1, the second sedimentation tank 2 and the third sedimentation tank 3 are respectively communicated with a slurry pump 6; the slurry pump 6 is connected with the filter press 7; the water inlet 101 is communicated with a water discharge tank (waste water generated in the glass production process is filled in the water discharge tank) in the production workshop through a pipeline, the water pumping port 201 is communicated with a water storage tank in the production workshop through a water pump, and the water outlet 301 is communicated with an external industrial waste water tank.
When the device is used, wastewater in a workshop water discharge tank flows into the first sedimentation tank 1 for preliminary sedimentation, and glass powder in the wastewater can be precipitated to the bottom of the first sedimentation tank 1; when the water level in the first sedimentation tank 1 reaches a certain height, water at the upper end of the first sedimentation tank flows into the second sedimentation tank 2 through a pipeline 4 for secondary sedimentation, and glass powder in the wastewater can be sedimented to the bottom of the second sedimentation tank 2; the water pump outside the water tank is started to pump water at the upper end of the second sedimentation tank 2, and the water in the second sedimentation tank 2 flows into the water pumping port 201 through the liquid flow dispersing device 5 and is conveyed to the workshop reservoir for storage through the pipeline, so that the follow-up production is convenient to put into use again; when the water level in the second sedimentation tank 2 reaches a certain height, water at the upper end of the second sedimentation tank flows into the third sedimentation tank 3 through a pipeline 4 for secondary sedimentation, and then is discharged to the outside (because the water is recycled, only a small amount of water flows into the third sedimentation tank 3, and the water in the third sedimentation tank 3 can be directly discharged after sedimentation); the glass powder at the bottom of the three sedimentation tanks is sucked into a filter press 7 by a slurry pump 6 to be compressed, so that the glass powder is changed into fixed glass slag, and the subsequent treatment is convenient.
Examples:
in this embodiment, the distance D between two adjacent trapezoidal plates 501 1 Is 2cm; distance D between two adjacent inverted trapezoidal plates 502 2 Is 2cm;distance D between the lower end of the trapezoid plate 501 and the bottom of the inverted trapezoid plate 502 3 Is 2cm.
In this embodiment, the first mounting plate includes a first upper mounting plate 503 and a first lower mounting plate 504 that are detachably connected; the second mounting plate comprises a second upper mounting plate 505 and a second lower mounting plate 506 which are detachably connected; the first upper mounting plate 503 and the second upper mounting plate 505 are respectively welded and fixed with two ends of the trapezoid plate 501 to form an upper diversion assembly; the first lower mounting plate 504 and the second lower mounting plate 506 are welded and fixed to two ends of the inverted trapezoidal plate 502, respectively, to form a lower split assembly. At this time, the liquid flow dispersing device 5 can be split into an upper structure and a lower structure, is convenient to clean and is easy to manufacture.
In this embodiment, the top of the second upper mounting plate 505 is flush with the top of the second sedimentation tank 2. Therefore, water can be prevented from flowing over the liquid flow dispersing device 5 in the water pumping process, and the using effect of the liquid flow dispersing device 5 is prevented from being influenced.
In this embodiment, the second lower mounting plate 506 is hinged to the inner wall of the second sedimentation tank 2. Thus, when the glass frit is piled up on the surfaces of the trapezoid plate 501 and the inverted trapezoid plate 502, the whole liquid flow dispersing device 5 can be pushed to rotate a certain angle relative to the second sedimentation tank 2 (see fig. 4), and then the glass frit is washed away by water, so that the operation is very convenient.
Further, a 7-shaped push rod 507 is arranged on the first lower mounting plate 504, and the push rod 507 is hung on the pool edge of the second sedimentation pool 2. Thus, the push rod 507 can be grasped by hand to push the liquid flow dispersing device 5, and the operation is more labor-saving.
In this embodiment, the first upper mounting plate 503 and the first lower mounting plate 504 are fixed by clamping; the second upper mounting plate 505 and the second lower mounting plate 506 are fixed by threaded connection. At this time, the disassembly and assembly are convenient. Further, a clamping block 5031 is provided on the first upper mounting plate 503, and correspondingly, a clamping groove 5041 is provided on the first lower mounting plate 504, and the clamping block 5031 is clamped into the clamping groove 5041; the second upper mounting plate 505 is provided with an a mounting lug 5051, and correspondingly, the second lower mounting plate 506 is provided with a B mounting lug 5061, and the a mounting lug 5051 and the B mounting lug 5061 are fixed by bolting.
The above general description of the utility model and the description of specific embodiments thereof in relation to the present utility model should not be construed as limiting the scope of the utility model. Those skilled in the art can add, subtract or combine the features disclosed in the foregoing general description and/or the detailed description (including examples) to form other technical solutions within the scope of the utility model without departing from the disclosure of the utility model.

Claims (7)

1. The utility model provides a reuse circulating water's glass production water saving system which characterized in that: comprises a first sedimentation tank (1), a second sedimentation tank (2) and a third sedimentation tank (3); the upper end of the first sedimentation tank (1) is communicated with the second sedimentation tank (2) through a pipeline (4); the upper end of the second sedimentation tank (2) is communicated with the third sedimentation tank (3) through a pipeline (4); a water inlet (101) is formed in the first sedimentation tank (1), a water pumping port (201) is formed in the second sedimentation tank (2), and a water outlet (301) is formed in the third sedimentation tank (3); the second sedimentation tank (2) is positioned below the water pumping port (201) and is provided with a liquid flow dispersing device (5); the liquid flow dispersing device (5) comprises a first mounting plate and a second mounting plate which are connected with the second sedimentation tank (2), a group of trapezoid plates (501) arranged at intervals and a group of inverted trapezoid plates (502) arranged at intervals, wherein the trapezoid plates are arranged between the first mounting plate and the second mounting plate; the trapezoid plates (501) and the inverted trapezoid plates (502) are arranged in a staggered mode, and the lower end position of the trapezoid plate (501) is lower than the upper end position of the inverted trapezoid plate (502); the surface of the first mounting plate is contacted with the inner wall of the second sedimentation tank (2); the lower ends of the first sedimentation tank (1), the second sedimentation tank (2) and the third sedimentation tank (3) are respectively communicated with a slurry pump (6); the slurry pump (6) is connected with the filter press (7); the water inlet (101) is communicated with a water draining pool in the production workshop, the water pumping port (201) is communicated with a water storage pool in the production workshop through a water pump, and the water outlet (301) is communicated with an external industrial wastewater pool.
2. The recycled water-in-glass production water saving system according to claim 1, wherein: distance D between two adjacent trapezoid boards (501) 1 1-3cm; distance D between two adjacent inverted trapezoid plates (502) 2 1-3cm; the distance D between the lower end of the trapezoid plate (501) and the bottom of the inverted trapezoid plate (502) 3 1-3cm.
3. The glass production water saving system for recycling circulating water according to claim 2, wherein: the first mounting plate comprises a first upper mounting plate (503) and a first lower mounting plate (504) which are detachably connected; the second mounting plate comprises a second upper mounting plate (505) and a second lower mounting plate (506) which are detachably connected; the first upper mounting plate (503) and the second upper mounting plate (505) are respectively and fixedly connected with two ends of the trapezoid plate (501); the first lower mounting plate (504) and the second lower mounting plate (506) are fixedly connected with two ends of the inverted trapezoid plate (502) respectively.
4. A glass production water saving system for recycling circulating water according to claim 3, wherein: the top of the second upper mounting plate (505) is flush with the top of the second sedimentation tank (2).
5. The recycled water-in-glass production water saving system according to claim 4, wherein: the second lower mounting plate (506) is hinged with the inner wall of the second sedimentation tank (2).
6. The recycled water-in-glass production water saving system according to claim 5, wherein: the first lower mounting plate (504) is provided with a 7-shaped push rod (507), and the push rod (507) is hung on the pool edge of the second sedimentation pool (2).
7. The recycled water-in-glass production water saving system according to claim 6, wherein: the first upper mounting plate (503) and the first lower mounting plate (504) are fixed through clamping; the second upper mounting plate (505) and the second lower mounting plate (506) are fixedly connected through threads.
CN202320461926.5U 2023-03-06 2023-03-06 Glass production water saving system capable of recycling circulating water Active CN219517894U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320461926.5U CN219517894U (en) 2023-03-06 2023-03-06 Glass production water saving system capable of recycling circulating water

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320461926.5U CN219517894U (en) 2023-03-06 2023-03-06 Glass production water saving system capable of recycling circulating water

Publications (1)

Publication Number Publication Date
CN219517894U true CN219517894U (en) 2023-08-15

Family

ID=87632058

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320461926.5U Active CN219517894U (en) 2023-03-06 2023-03-06 Glass production water saving system capable of recycling circulating water

Country Status (1)

Country Link
CN (1) CN219517894U (en)

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