CN201420041Y - Efficient and integrated water purifying equipment - Google Patents
Efficient and integrated water purifying equipment Download PDFInfo
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- CN201420041Y CN201420041Y CN2009201374923U CN200920137492U CN201420041Y CN 201420041 Y CN201420041 Y CN 201420041Y CN 2009201374923 U CN2009201374923 U CN 2009201374923U CN 200920137492 U CN200920137492 U CN 200920137492U CN 201420041 Y CN201420041 Y CN 201420041Y
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- scatterer
- water purifying
- filtrating area
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- purifying plant
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Abstract
The utility model discloses efficient and integrated water purifying equipment, which comprises a scatterer (1), a separation area (2), a multifunctional area (3), a first filtering area (4) and a second filtering area (5), wherein the scatterer (1) is a double-layered long tube with an opening at the upper end; the inner layer and the outer layer of the long tube are mesh walls, and meshes on theinner layer and the outer layer are staggered; the scatterer (1) is inserted into the upper part the separation area (2), which is in the shape of a straight tube, and the opening at the upper end ofthe separation area (2) is sealed; a longitudinal partition board (21) is arranged on the inner wall of the straight tube; the lower part of the separation area (2) is in the shape of an inverted cone and the lower end thereof is open; the multifunctional area (3) and the first filtering area (4) surround the lower part and the upper part of the separation area (2) respectively; and the first filtering area (4) is surrounded with the second filtering area (5). The utility model has the advantages of compact structure, small volume, integration of sewage sedimentation, clarification and filterfunctions, few transmission parts and high purification efficiency, and is particularly suitable for treating high-turbidity sewage; in addition , outlet water is clean and can be utilized directly.
Description
Technical field
The utility model relates to water treating equipment, specifically, relates to a kind of effective integrated water purifying plant that is used for high opacity sewage purification.
Background technology
Along with high development of social economy, the town and country water consumption increases gradually, but because a large amount of dischargings of industrial and agricultural wastewater, drinking water source water pollution situation is on the rise, and influences the water supply security of tap water.At present, some traditional water treating equipment are arranged on the market, but the water treating equipment that do not have the muddy river of special disposal, muddy lake water and high opacity sewage, and traditional water treating equipment, all be to adopt a plurality of equipment to make up, general source water is carried out physical or chemical treatment, the device structure complexity, take up room greatly, water treatment efficiency is low.
The utility model content
Technical problem to be solved in the utility model is to provide a kind of effective integrated water purifying plant, and this equipment can be handled high opacity sewage, and equipment is integrated, compact construction, purification efficiency height.
The technical solution of the utility model is as follows: a kind of effective integrated water purifying plant, comprise scatterer, disengaging zone, multi-functional district, first filtrating area and second filtrating area, described scatterer is the open double-deck long tube in upper end, and the innner and outer layer of this length tube is that the mesh of mesh wall and innner and outer layer is staggered; Top, described disengaging zone is straight-tube shape and is inserted with described scatterer and goes up end closure, is provided with wash plate on this straight tube inwall, and bottom, described disengaging zone is that inverted conical shape and lower end are uncovered; The described multi-functional district and first filtrating area are looped around respectively outside the bottom and top of described disengaging zone, this multi-functional district is up-small and down-big and be fixed with the wave plate that extends to described disengaging zone on lower inner wall, in the bottom in multi-functional district is the conical disc that has sewage draining exit, and described first filtrating area upper end is uncovered, the lower end is provided with the secondary filter net; Be surrounded with described second filtrating area outside described first filtrating area, be provided with the quartz sand filtration layer in this second filtrating area, in the bottom of this second filtrating area water outlet is arranged, this water outlet is positioned at the below of described filtering layer.
The utility model is the integration apparatus with settlement of sewage, clarification, filtering function, comprise scatterer, disengaging zone, multi-functional district, first filtrating area and second filtrating area, compact equipment, ring ring link to each other, equipment volume is little, driving member is few, the purification efficiency height.The utility model is provided with special scatterer, muddy water is after adding the flocculation medicament by volume pump, enter in the scatterer from the inlet of scatterer upper end, because being dislocatedly distributed of the about stratum reticulare of scatterer, the water of scatterer the inside produces the rotary-jet motion of different directions when outwards flowing, the water that ejects from the scatterer mesh bumps against the dividing plate outside the scatterer, can change direction of motion and do sinuous movement, thereby form from top to bottom, from bottom to top turn over stream.In this process, promptly finish separation to the contained silt of high turbidity water, the silt of separating is because the lower end, disengaging zone is sunk in action of gravity rapidly, and from the lower end the uncovered conical disc that enters multi-functional district bottom.And the water after the process separation is pooled to the bottom in multi-functional district in setting-up time, because the curved surface effect of wave plate, the passage that current pass through is corrugated, current are made wave motion and are compiled downwards gradually, form big flocculation reaction thing in the process of compiling downwards, material separates once more in the water thus, and the conical disc of the bottom, multi-functional district that big flocculation reaction thing slowly sinks to forms polymkeric substance with first isolating silt.Water after separating for the second time, the most suspended substances in its water, impurity, colloidalmaterial are removed, the water quality predefecation.Water after the clarification slowly rises, and enters first filtrating area after by the secondary filter net more tiny impurity being held back, and these are filtered the fine impurities of staying multi-functional district, sinks and the silt mixed with polymers again after reaching certain density.The water that enters first filtrating area enters second filtrating area from its uncovered outside outflow, behind the secondary filtration of quartz sand filtration layer after arriving its top, water has been cleaned limpid, flow out from the water outlet of second filtrating area bottom, obtain clean limpid purifying waste water, can directly utilize.
For making current produce intensive rotary-jet motion more, the lower end of described scatterer is spherical.
Further, big, the outer mesh of the nexine mesh of described scatterer is little.
Further, be furnished with the water caltrop of projection on the nexine inwall of described scatterer.
Intensive collides sinuous movement in order to make current produce more, and described dividing plate just is dislocatedly distributed.
Further, the spacing difference between described dividing plate.
Described wave plate is four, and described filtering net is one stainless steel punching net, and mesh diameter is 0.07~0.09mm.
Described quartz sand filtration layer is divided into carefully from top to bottom successively, in, thick three layers, its quartz sand particle diameter is respectively: upper strata 0.5~1mm, middle level 1~2mm, low layer 2~4mm.
The top of described disengaging zone is that round shape, bottom are rounding vertebra shape, and bottom, described multi-functional district is that round shape, top are rounding vertebra shape, and described first filtrating area and second filtrating area are round shape.
Described quartz sand filtration layer is by regularly back flushing of back-purge system, and the conical surface of described conical disc is provided with the impeller that can regularly move.Back-purge system can guarantee the continuous operation of equipment, and impeller can play the booster action of the silt of equipment bottommost being released sewage draining exit.
The beneficial effects of the utility model are: compact construction, and volume is little, and collection settlement of sewage, clarification, filtering function are one, and driving member is few, and the purification efficiency height is particularly useful for high opacity sewage is handled, and water outlet is totally limpid, can directly utilize.
Description of drawings
Fig. 1 is a structural representation of the present utility model.
Embodiment
The utility model is described in further detail below in conjunction with drawings and Examples:
As shown in Figure 1, the utility model mainly is made up of scatterer 1, disengaging zone 2, multi-functional district 3, first filtrating area 4 and second filtrating area 5.Wherein, scatterer 1 is the double-deck long tube of spheric for the lower end, and scatterer 1 upper end is uncovered, this uncovered water-in 11 as this equipment, the innner and outer layer of scatterer 1 is the mesh wall, and the innner and outer layer mesh that big, the outer mesh of nexine mesh is little is staggered, also is furnished with the water caltrop of projection on the nexine inwall.The top of disengaging zone 2 is cylindric, 2 top is inserted with scatterer 1 in the disengaging zone, and the last end closure of disengaging zone 2 is provided with dividing plate 21 longitudinally on this straight tube inwall, dividing plate 21 is between the outer wall of the inwall of disengaging zone 2 and scatterer 1, and each dividing plate 21 height is dislocatedly distributed and the spacing difference.The bottom of disengaging zone 2 is that rounding vertebra shape and lower end are uncovered.The multi-functional district 3 and first filtrating area 4 are looped around respectively outside the bottom and top of disengaging zone 2, this multi-functional district 3 is up-small and down-big, top is rounding vertebra shape, the bottom is a round shape, in the lower end of this cylinder is the conical disc 32 that has sewage draining exit 33, as the bottom of this equipment, the uncovered top that is positioned at conical disc 32, the lower end of disengaging zone 2.Be fixed with the wave plate 31 that extends to disengaging zone 2 on the lower inner wall in multi-functional district 3, wave plate 31 is four.
The upper end of first filtrating area 4 is uncovered, and the lower end is provided with secondary filter net 41 one, and filtering net 41 is a stainless steel punching net, and mesh diameter is 0.08mm.Outside first filtrating area 4, be surrounded with second filtrating area 5, in this second filtrating area 5, be provided with quartz sand filtration layer 51, quartz sand filtration layer 51 is divided into carefully from top to bottom successively, in, thick three layers, its quartz sand particle diameter is respectively: upper strata 0.8mm, middle level 1.5mm, low layer 3mm.In the bottom of second filtrating area 5 water outlet 52 is arranged, this water outlet 52 is positioned at the below of filtering layer 51.Quartz sand filtration layer 51 is by regularly back flushing of back-purge system, to guarantee the continuous operation of equipment, on the conical surface of multi-functional district 3 bottom conical disc 32, be provided with the impeller that can regularly move, thereby play the booster action of the silt of equipment bottommost being released sewage draining exit.Bottom at this equipment also is provided with support 6, supports this equipment.
Principle of work: muddy water is after adding the flocculation medicament by volume pump, enter in the scatterer 1 from the inlet of scatterer 1 upper end, the water that scatterer is 1 li produces the rotary-jet motion of different directions when outwards flowing, the water that ejects from scatterer 1 mesh bump against dividing plate 21 form from top to bottom, from bottom to top turn over stream, in this process, finish separation to the contained silt of high turbidity water, the silt of separating sinks to 2 lower ends, disengaging zone rapidly, and from the lower end the uncovered conical disc 32 that enters 3 bottoms, multi-functional district.And the water after the process separation is pooled to the bottom in multi-functional district 3 in setting-up time, current are done wave motion and are compiled downwards gradually under the effect of wave plate 31, and form big flocculation reaction thing, material separates once more in the water thus, the conical disc 32 of 3 bottoms, multi-functional district that big flocculation reaction thing slowly sinks to forms polymkeric substance with first isolating silt.Water after separating for the second time, most suspended substances in its water, impurity, colloidalmaterial are removed, the water quality predefecation also slowly rises, enter first filtrating area 4 after by secondary filter net 41 more tiny impurity being held back, these are filtered the fine impurities of staying multi-functional district 3, sink and the silt mixed with polymers again after reaching certain density.What enter first filtrating area 4 waterbornely outwards flows out into second filtrating area 5 after rising to the top, and behind the secondary filtration of quartz sand filtration layer 51, clean limpid purifying waste water flowed out from water outlet 52.
Claims (10)
1, a kind of effective integrated water purifying plant, it is characterized in that: comprise scatterer (1), disengaging zone (2), multi-functional district (3), first filtrating area (4) and second filtrating area (5), described scatterer (1) is the open double-deck long tube in upper end, and the innner and outer layer of this length tube is that the mesh of mesh wall and innner and outer layer is staggered; Top, described disengaging zone (2) is straight-tube shape and is inserted with described scatterer (1) and goes up end closure, is provided with wash plate (21) on this straight tube inwall, and bottom, described disengaging zone (2) is that inverted conical shape and lower end are uncovered; Described multi-functional district (3) and first filtrating area (4) are looped around respectively outside the bottom and top of described disengaging zone (2), this multi-functional district (3) is up-small and down-big and be fixed with the wave plate (31) that extends to described disengaging zone (2) on lower inner wall, in the bottom of multi-functional district (3) is the conical disc (32) that has sewage draining exit (33), and described first filtrating area (4) upper end is uncovered, the lower end is provided with secondary filter net (41); Outside described first filtrating area (4), be surrounded with described second filtrating area (5), in this second filtrating area (5), be provided with quartz sand filtration layer (51), in the bottom of this second filtrating area (5) water outlet (52) is arranged, this water outlet (52) is positioned at the below of described filtering layer (51).
2, effective integrated water purifying plant according to claim 1 is characterized in that: the lower end of described scatterer (1) is for spherical.
3, effective integrated water purifying plant according to claim 1 and 2 is characterized in that: big, the outer mesh of the nexine mesh of described scatterer (1) is little.
4, effective integrated water purifying plant according to claim 3 is characterized in that: the water caltrop that is furnished with projection on the nexine inwall of described scatterer (1).
5, effective integrated water purifying plant according to claim 1 is characterized in that: described dividing plate (21) height is dislocatedly distributed.
6, effective integrated according to claim 1 or 5 water purifying plant is characterized in that: the spacing difference between described dividing plate (21).
7, effective integrated water purifying plant according to claim 1 is characterized in that: described wave plate (31) is four, and described filtering net (41) is one stainless steel punching net, and mesh diameter is 0.07~0.09mm.
8, effective integrated water purifying plant according to claim 1, it is characterized in that: described quartz sand filtration layer (51) is divided into carefully from top to bottom successively, in, thick three layers, its quartz sand particle diameter is respectively: upper strata 0.5~1mm, middle level 1~2mm, low layer 2~4mm.
9, effective integrated water purifying plant according to claim 1, it is characterized in that: the top of described disengaging zone (2) is that round shape, bottom are rounding vertebra shape, bottom, described multi-functional district (3) is that round shape, top are rounding vertebra shape, and described first filtrating area (4) and second filtrating area (5) are round shape.
10, effective integrated water purifying plant according to claim 1 is characterized in that: described quartz sand filtration layer (51) is by regularly back flushing of back-purge system, and the conical surface of described conical disc (32) is provided with the impeller that can regularly move.
Priority Applications (1)
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CN2009201374923U CN201420041Y (en) | 2009-04-01 | 2009-04-01 | Efficient and integrated water purifying equipment |
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CN2009201374923U CN201420041Y (en) | 2009-04-01 | 2009-04-01 | Efficient and integrated water purifying equipment |
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CN2009201374923U Expired - Fee Related CN201420041Y (en) | 2009-04-01 | 2009-04-01 | Efficient and integrated water purifying equipment |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104275252A (en) * | 2014-10-09 | 2015-01-14 | 常州大学 | Rotating sprayer device applied to riverway water purification |
CN105217698A (en) * | 2015-10-29 | 2016-01-06 | 浦华环保股份有限公司 | A kind of sewerage integrated pretreatment unit and treatment process thereof |
-
2009
- 2009-04-01 CN CN2009201374923U patent/CN201420041Y/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104275252A (en) * | 2014-10-09 | 2015-01-14 | 常州大学 | Rotating sprayer device applied to riverway water purification |
CN105217698A (en) * | 2015-10-29 | 2016-01-06 | 浦华环保股份有限公司 | A kind of sewerage integrated pretreatment unit and treatment process thereof |
CN105217698B (en) * | 2015-10-29 | 2017-09-08 | 浦华环保股份有限公司 | A kind of sewerage integrated pretreatment unit and its processing method |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20100310 Termination date: 20130401 |