CN101519246B - Cistern system for improving water quality - Google Patents
Cistern system for improving water quality Download PDFInfo
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- CN101519246B CN101519246B CN2008100181196A CN200810018119A CN101519246B CN 101519246 B CN101519246 B CN 101519246B CN 2008100181196 A CN2008100181196 A CN 2008100181196A CN 200810018119 A CN200810018119 A CN 200810018119A CN 101519246 B CN101519246 B CN 101519246B
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- water
- clarification tank
- cistern
- water cellar
- cellar
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Abstract
A cistern system for improving the water quality includes a cistern and a clarification tank 17; a raw water inlet 1 stretches into a recirculation zone 4 inside the clarification tank 17 through a clA cistern system for improving the water quality includes a cistern and a clarification tank 17; a raw water inlet 1 stretches into a recirculation zone 4 inside the clarification tank 17 through a clarification tank wall 2; a metal screen 5 is arranged between the recirculation zone 4 and a primary mixed reaction zone 14; the upper part of the clarification tank 17 is correspondingly provided witarification tank wall 2; a metal screen 5 is arranged between the recirculation zone 4 and a primary mixed reaction zone 14; the upper part of the clarification tank 17 is correspondingly provided with an upper end cover 8; a pump body and an electric motor 9 are arranged in a secondary mixed reaction zone 10 through the upper end cover 8; a softener dosing tube 7 and a disinfectant dosing tube 11h an upper end cover 8; a pump body and an electric motor 9 are arranged in a secondary mixed reaction zone 10 through the upper end cover 8; a softener dosing tube 7 and a disinfectant dosing tube 11 are arranged at two sides of the upper end cover 8; a water outlet tube 15 of the clarification tank is arranged at one side of the clarification tank wall 2; the clarification tank wall 2 at the loware arranged at two sides of the upper end cover 8; a water outlet tube 15 of the clarification tank is arranged at one side of the clarification tank wall 2; the clarification tank wall 2 at the lower part of the water outlet tube 15 of the clarification tank is provided with a mud discharge mechanism; the bottom of the clarification tank wall 2 is provided with a mud discharge port 18; the wateer part of the water outlet tube 15 of the clarification tank is provided with a mud discharge mechanism; the bottom of the clarification tank wall 2 is provided with a mud discharge port 18; the water outlet tube 15 of the clarification tank is communicated with a cistern water inlet 21; a clapboard 31 is arranged at the upper part of a slurry storage zone 33 at the bottom of the cistern; the clar outlet tube 15 of the clarification tank is communicated with a cistern water inlet 21; a clapboard 31 is arranged at the upper part of a slurry storage zone 33 at the bottom of the cistern; the clapboard 31 is provide with a mud discharge valve 34; and the middle part of a cistern wall 29 is provide with a slow processor 24 which is internally provided with a disinfection system 25 and a pump 2pboard 31 is provide with a mud discharge valve 34; and the middle part of a cistern wall 29 is provide with a slow processor 24 which is internally provided with a disinfection system 25 and a pump 26. The cistern system can control the sediment from the source, thus effectively improving the water quality in the cistern.6. The cistern system can control the sediment from the source, thus effectively improving the water quality in the cistern.
Description
Technical field
The present invention relates to water cellar water quality and keep technical field, relate in particular to a kind of water cellar system that is used to improve water quality.
Background technology
Western vast in territory, but backward in economy, natural condition are abominable, are one of areas of the drought and water shortage of China, and extremely society's " mother's water cellar " engineering of attracting attention becomes one of effective way that solves rural area human livestock drinking water problem.But in use, rain, snow compile through ground and to enter water cellar, and other impurity such as plant leaf, ight soil will be sneaked into water cellar with water, cause in long time stored process, water cellar bottom sludge deposition occurs, water quality phenomenon such as degenerate.Also there is not a kind of feasible measure that effectively addresses the above problem in the prior art.
Summary of the invention
The objective of the invention is to provides a kind of water cellar system that is used to improve water quality at defective of the prior art, the internal structure that it passes through the effect of mechanical stirring accelerating purifying pool and passes through to change traditional water cellar, thus reach a series of problems that effectively overcome the described existence of background technology from problem purposes such as source solution silting and water corrections.
The technical solution adopted for the present invention to solve the technical problems is: the described water cellar system that is used to improve water quality, include water cellar and settling pond 17, its characteristics are: the recirculating zone 4 that is provided with in the described settling pond 17, mixed once reaction zone 14 and secondary mixing reaction zone 10, original water inlet 1 stretches into recirculating zone 4 in the settling pond 17 by clarification pool wall 2, be provided with metal screen 5 between recirculating zone 4 and the mixed once reaction zone 14, the top of original water inlet 1 is provided with aperture 3; The secondary mixing reaction zone 10 top correspondences of settling pond 17 are provided with upper end cover 8, and the pump housing and motor 9 are located in the secondary mixing reaction zone 10 by upper end cover 8, and tenderizer drug tube 7 and sterilizing agent drug tube 11 are located at the both sides of upper end cover 8; Settling pond rising pipe 15 is arranged on a side of clarification pool wall 2, and the clarification pool wall 2 of settling pond rising pipe 15 bottoms is provided with spoil disposal mechanism, and clarification pool wall 2 bottoms are provided with mud discharging mouth 18, and shore pipe 19 is connected with mud discharging mouth 18; Settling pond rising pipe 15 is connected with water cellar water-in 21, water cellar water-in 21 is arranged on the upper end of water cellar wall 29, the upper port of water cellar wall 29 is provided with water cellar lid 22, dividing plate 31 is arranged on the top of the mud storage zone 33 of water cellar bottom, dividing plate 31 is provided with mud valve 34, and the middle part of water cellar wall 29 is provided with slow treater 24, is provided with sterilisation system 25 and water pump 26 in the slow treater 24, the bottom of slow treater 24 is provided with drinking-water pipe 27, and the top of slow treater 24 is connected with user interface water pipe 23.
The present invention compares with background technology, and the useful effect that has is: the described water cellar system that is used to improve water quality, by transforming the water cellar internal structure, can control silt from the source, and improve the water cellar internal medium with biochemical method, and suppress growing of microorganism, prevent water quality deterioration.With physicochemical method water is carried out innoxious purifying treatment, and, prevent the clear water muddiness removing processing at the mud of water cellar bottom deposit.It has effectively improved the water quality in the water cellar.
Description of drawings
Fig. 1 is a water cellar structural representation of the present invention;
Fig. 2 is a settling pond structural representation of the present invention;
In the accompanying drawing: 1. original water inlet, 2. clarification pool wall, 3. aperture, 4. recirculating zone, 5. metal screen, 6. fine sand, 7. tenderizer drug tube, 8. upper end cover, 9. the pump housing and motor, 10. secondary mixing reaction zone, 11. sterilizing agent drug tubes, 12. effluent troughs, 13. thickening cone, 14. mixed once reaction zones, 15. settling pond rising pipes, 16. mud valves, 17. settling pond, 18. mud discharging mouths, 19. shore pipes, 20. slush pump, 21. water cellar water-ins, 22. water cellars lid, 23. the user interface water pipe, 24. slow treaters, 25. sterilisation systems, 26. water pump, 27. drinking-water pipes, 28. filter screens, 29. the water cellar wall, 30. shore pipes, 31. dividing plates, 32. the water cellar substrate, 33. mud storage zones, 34. mud valves.
Embodiment
As shown in Figure 1, 2, the described water cellar system that is used to improve water quality, include water cellar and settling pond 17, its characteristics are: the recirculating zone 4 that is provided with in the described settling pond 17, mixed once reaction zone 14 and secondary mixing reaction zone 10, original water inlet 1 stretches into recirculating zone 4 in the settling pond 17 by clarification pool wall 2, be provided with metal screen 5 between recirculating zone 4 and the mixed once reaction zone 14, the top of original water inlet 1 is provided with aperture 3; The secondary mixing reaction zone 10 top correspondences of settling pond 17 are provided with upper end cover 8, and the pump housing and motor 9 are located in the secondary mixing reaction zone 10 by upper end cover 8, and tenderizer drug tube 7 and sterilizing agent drug tube 11 are located at the both sides of upper end cover 8; Settling pond rising pipe 15 is arranged on a side of clarification pool wall 2, and the clarification pool wall 2 of settling pond rising pipe 15 bottoms is provided with spoil disposal mechanism, and clarification pool wall 2 bottoms are provided with mud discharging mouth 18, and shore pipe 19 is connected with mud discharging mouth 18; Settling pond rising pipe 15 is connected with water cellar water-in 21, water cellar water-in 21 is arranged on the upper end of water cellar wall 29, the upper port of water cellar wall 29 is provided with water cellar lid 22, dividing plate 31 is arranged on the top of the mud storage zone 33 of water cellar bottom, dividing plate 31 is provided with mud valve 34, and the middle part of water cellar wall 29 is provided with slow treater 24, is provided with sterilisation system 25 and water pump 26 in the slow treater 24, the bottom of slow treater 24 is provided with drinking-water pipe 27, and the top of slow treater 24 is connected with user interface water pipe 23.
In the described metal screen 5 fine sand grain 6 is housed, tenderizer drug tube 7 and sterilizing agent drug tube 11 are set in parallel in the both sides of upper end cover 8, and extend in the secondary mixing reaction zone 10.The pump housing and motor 9 vertically are installed on the symmetry centre of the upper end cover 8 of settling pond, and the impeller of the pump housing and motor 9 stretches in the mixed once reaction zone 14.Spoil disposal mechanism comprises that an end stretches into the pipeline in the settling pond 17 by clarification pool wall 2 and is arranged on mud valve 16 on the pipeline.The outside, upper end of water cellar wall 29 also is provided with slush pump 20, and slush pump 20 links to each other with shore pipe 30, and shore pipe 30 extend into the mud storage zone 33 of water cellar bottom by water cellar wall 29.The below, bottom of water cellar wall 29 is provided with water cellar substrate 32.Mud valve 34 is installed in the central authorities of dividing plate 31.The bottom of drinking-water pipe 27 is provided with filter screen 28.
We are bright, and water cellar wall 29 and internal structure all are embedded in below ground when implementing, and water cellar wall 29 usefulness neat slurries brush twice is built 15-20cm with concrete, with cob face bed course.Twice usefulness concrete of water cellar substrate 22 usefulness neat slurries brush turns over and rams 20-25cm, wipes one's face with washing the silt particle slurry, uses cob face bed course again.Slow treater 24 is kept certain height apart from the water surface, and drinking-water pipe 27 guarantees good seals with slow treater 24.Slush pump 20 is fixed in ground, and shore pipe 30 is passed into mud storage zone 33, and the torsion of mud valve 34 is enough to destroy the mud in the mud storage zone 33, and dividing plate 31 can closely fasten with mud storage zone 32.Settling pond 17 is to be placed in the concrete structure of having constructed, can take out or put into, and mud is wherein cleaned by artificial timing.Rising pipe 15 can be with the water cellar water-in 21 input water cellars of warp constantly of purifying waste water in a steady stream that enter after mixed once reaction zone 14, secondary reaction mixing zone 10 and metal screen 5 purifying treatment in the effluent trough 12, and mud can concentrate by thickening cone 13 again and discharge settling pond through mud valve 16 in the settling pond 17.
During work, former water enters the recirculating zone through original water inlet 1, the overwhelming majority enters mixed once reaction zone 14 after metal screen 5 filters, another part directly enters secondary mixing reaction zone 10 after filter screen 5 filters, wherein the flooding velocity of water-in 1 can pass through aperture 3 place's direct viewing, the pump housing and motor 9 rotate, filtered water and tenderizer dispensing kit 7 interior medicaments in the mixed once reaction zone 14 are fully reacted, and interior treating water of secondary mixing reaction zone and the medicament in the sterilizing agent dispensing kit are fully reacted, purifying waste water after twice purifying treatment penetrates in the effluent trough 12 gradually, the glaur major part that produces in the scavenging process is directly discharged settling pond through mud discharging mouth 18 and shore pipe 19, another part is deposited in the settling pond 17, this part deposition can concentrate by thickening cone 13 again and discharge through mud valve 16, purifying waste water in the effluent trough 12 imports water cellar through rising pipe 15 and water cellar water-in 21, purify waste water in water cellar store the long period after, will be that 33 places, mud storage zone produce mud above water cellar substrate 32, when finding that there is mud the water cellar bottom and reaches certain thickness, check dividing plate 31 and guarantee it and water cellar substrate 32 tops are that the interior mud in mud storage zone 33 closely fastens, and by the mud valve that is installed in dividing plate central authorities with its short textureization, cooperate with slush pump 20 by shore pipe 30 again and extract it out water cellar, purifying waste water in the water cellar enters slow treater 24 through filter screen 28 and drinking-water pipe 27 and water pump 26, and after sterilisation system 25 sterilizations, drink for the user by 23 derivation of user interface water pipe.
Claims (9)
1. be used to improve the water cellar system of water quality, include water cellar and settling pond (17), it is characterized in that: the recirculating zone (4) that is provided with in the described settling pond (17), mixed once reaction zone (14) and secondary mixing reaction zone (10), original water inlet (1) stretches into the interior recirculating zone (4) of settling pond (17) by clarification pool wall (2), be provided with metal screen (5) between recirculating zone (4) and the mixed once reaction zone (14), the top of original water inlet (1) is provided with aperture (3); Secondary mixing reaction zone (10) the top correspondence of settling pond (17) is provided with upper end cover (8), the pump housing and motor (9) are located in the secondary mixing reaction zone (10) by upper end cover (8), and tenderizer drug tube (7) and sterilizing agent drug tube (11) are located at the both sides of upper end cover (8); Settling pond rising pipe (15) is arranged on a side of clarification pool wall (2), and the clarification pool wall (2) of settling pond rising pipe (15) bottom is provided with spoil disposal mechanism, and clarification pool wall (2) bottom is provided with mud discharging mouth (18), and shore pipe (19) is connected with mud discharging mouth (18); Settling pond rising pipe (15) is connected with water cellar water-in (21), water cellar water-in (21) is arranged on the upper end of water cellar wall (29), the upper port of water cellar wall (29) is provided with water cellar lid (22), dividing plate (31) is arranged on the top of the mud storage zone (33) of water cellar bottom, dividing plate (31) is provided with mud valve (34), the middle part of water cellar wall (29) is provided with slow treater (24), be provided with sterilisation system (25) and water pump (26) in the slow treater (24), the bottom of slow treater (24) is provided with drinking-water pipe (27), and the top of slow treater (24) is connected with user interface water pipe (23).
2. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: fine sand grain (6) is housed in the described metal screen (5).
3. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: described tenderizer drug tube (7) and sterilizing agent drug tube (11) are set in parallel in the both sides of upper end cover (8), and extend in the secondary mixing reaction zone (10).
4. the water cellar system that is used to improve water quality according to claim 1, it is characterized in that: the described pump housing and motor (9) vertically are installed on the symmetry centre of the upper end cover (8) of settling pond, and the impeller of the pump housing and motor (9) stretches in the mixed once reaction zone (14).
5. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: described spoil disposal mechanism comprises that an end stretches into the pipeline in the settling pond (17) by clarification pool wall (2) and is arranged on mud valve (16) on the pipeline.
6. the water cellar system that is used to improve water quality according to claim 1, it is characterized in that: the outside, upper end of described water cellar wall (29) also is provided with slush pump (20), slush pump (20) links to each other with second shore pipe (30), and second shore pipe (30) extend into the mud storage zone (33) of water cellar bottom by water cellar wall (29).
7. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: the below, bottom of described water cellar wall (29) is provided with water cellar substrate (32).
8. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: described mud valve (34) is installed in the central authorities of dividing plate (31).
9. the water cellar system that is used to improve water quality according to claim 1 is characterized in that: the bottom of described drinking-water pipe (27) is provided with filter screen (28).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN2008100181196A CN101519246B (en) | 2008-04-25 | 2008-04-25 | Cistern system for improving water quality |
Applications Claiming Priority (1)
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CN2008100181196A CN101519246B (en) | 2008-04-25 | 2008-04-25 | Cistern system for improving water quality |
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CN101519246A CN101519246A (en) | 2009-09-02 |
CN101519246B true CN101519246B (en) | 2011-03-30 |
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CN2008100181196A Expired - Fee Related CN101519246B (en) | 2008-04-25 | 2008-04-25 | Cistern system for improving water quality |
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Families Citing this family (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101891313A (en) * | 2010-08-18 | 2010-11-24 | 哈尔滨工业大学水资源国家工程研究中心有限公司 | Slow-filtration principle-based double cistern water collecting and purifying system |
CN104213604A (en) * | 2014-04-09 | 2014-12-17 | 天祝藏族自治县华南天沁农牧开发有限责任公司 | Rural cellar dredging and water quality improvement system |
CN106049645A (en) * | 2016-07-05 | 2016-10-26 | 李俊峰 | On-line sludge cleaning system for cooling tower pool in thermal power plant |
CN109665608A (en) * | 2019-02-27 | 2019-04-23 | 连云港大禹水处理工程有限公司 | A kind of air lift stirring-type high dense settling pond and defecation method |
CN110550748B (en) * | 2019-09-19 | 2022-06-14 | 长沙理工大学 | Method and device for removing hardness in water |
Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0156671A1 (en) * | 1984-02-17 | 1985-10-02 | Diesel Energie | Cistern water cooling and purification device |
CN1482312A (en) * | 2003-07-17 | 2004-03-17 | 国家节水灌溉杨凌工程技术研究中心 | Process for the preparation of water inlet adjustable water cellar desilting basin |
-
2008
- 2008-04-25 CN CN2008100181196A patent/CN101519246B/en not_active Expired - Fee Related
Patent Citations (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0156671A1 (en) * | 1984-02-17 | 1985-10-02 | Diesel Energie | Cistern water cooling and purification device |
CN1482312A (en) * | 2003-07-17 | 2004-03-17 | 国家节水灌溉杨凌工程技术研究中心 | Process for the preparation of water inlet adjustable water cellar desilting basin |
Non-Patent Citations (2)
Title |
---|
JP昭63-93937A 1988.04.25 |
王芝学等.山区微型水窖的设计与应用.《林业实用技术》.2006,(第9期),45-46. * |
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Granted publication date: 20110330 Termination date: 20120425 |