CN209081620U - A kind of high efficiency advanced waste treatment apparatus - Google Patents
A kind of high efficiency advanced waste treatment apparatus Download PDFInfo
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- CN209081620U CN209081620U CN201821988545.8U CN201821988545U CN209081620U CN 209081620 U CN209081620 U CN 209081620U CN 201821988545 U CN201821988545 U CN 201821988545U CN 209081620 U CN209081620 U CN 209081620U
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- erecting bed
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- treatment apparatus
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Abstract
The utility model discloses a kind of high efficiency advanced waste treatment apparatus, including pretreatment pool, the first erecting bed, the second erecting bed and exposure pond, catalysis oxidation pond and sedimentation basin are welded at the top exterior walls central axes of first erecting bed, and first the top exterior walls side of erecting bed ozone generator is fixed with by screw, the output end of the ozone generator is connected by pipeline and catalysis oxidation pond, and catalysis oxidation pond and sedimentation basin opposite side outer wall are connected by pipeline.The utility model is by recycle control valve and outlet tube can liquids recovery be referenced in pretreatment pool by treated, cost of sewage disposal is reduced, flow sensor, which is matched, closes the quantitative catalytic oxidation treatment of ozone generator progress ozone, control the cost of ozone, acid, alkaline neutralization pond can be neutralized for the pH value after sewage treatment, with acidity-basicity sensor is closed, can quantitatively convert the amount than acid solution and lye, the dosage in whole process is controlled, reduces and neutralizes cost.
Description
Technical field
The utility model relates to technical field of waste water processing more particularly to a kind of high efficiency advanced waste treatment apparatus.
Background technique
In existing technique for treating industrial wastewater, advanced oxidation processes can biodegradability is poor, relative molecular mass is biggish has
The direct mineralising of machine waste water improves biodegradability by oxidation, and ozonation technology is since oxidation effectiveness is good, and decoloring ability is strong, nothing
Secondary pollution is most representative in advanced oxidation processes, widely used advanced oxidation processes, organic with removing more by force
The ability of pollutant can remove the pollutants such as phenol, the cyanogen in water removal, can also be used to the sodium alkyl benzene sulfonate in Decomposition Wastewater
(ABS), protein, amino acid, organic amine, lignin, humus, miscellaneous cyclic compound and chain type unsaturated compound etc. pollute
Object, meanwhile, the decolorization to printing and dyeing, waste water from dyestuff, existing whole wastewater treatment cannot recycle, and higher cost produces
The acid base imbalance of liquid out is unable to direct emission, and in the catalysis oxidation for carrying out ozone, amount is needed to control, not so be will cause
The raising of gaseous contamination and cost.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of high efficiency waste water proposed
Advanced treatment apparatus.
To achieve the goals above, the utility model adopts the technical scheme that
A kind of high efficiency advanced waste treatment apparatus, including pretreatment pool, the first erecting bed, the second erecting bed and exposure
Pond is welded with catalysis oxidation pond and sedimentation basin, and the top of the first erecting bed at the top exterior walls central axes of first erecting bed
Portion outer wall side is fixed with ozone generator by screw, and the output end of the ozone generator passes through pipeline and catalysis oxidation pond
It connects, and catalysis oxidation pond and sedimentation basin opposite side outer wall are connected by pipeline, the side outer wall of the pretreatment tank
Welding has outlet tube, and one end outer wall of outlet tube has flow sensor, the side inner wall welding of flow sensor by screw thread
On the outer wall in catalysis oxidation pond, the other side outer wall welding of the pretreatment tank has water inlet pipe, and the outer wall of water inlet pipe passes through
It is threaded with recycle control valve, one end outer wall welding of water inlet pipe is on the outer wall in exposure pond, the top of second erecting bed
Portion's outer wall is welded with acid neutralization pond, alkaline neutralization pond, acid solution storage pool and alkali storage pond, and outside the side of acid solution storage pool
Wall welding has acid resistance connecting tube, and one end outer wall welding of acid resistance connecting tube is on the outer wall of acid neutralization pond, the lye
The side outer wall welding of storage pool has alkali resistance connecting tube, and one end outer wall welding of alkali resistance connecting tube is in alkaline neutralization pond
On outer wall, the equal welding of bottom outer wall of the acidity neutralization pond and alkaline neutralization pond has a separating tube, and one of separating tube
One end outer wall welding is on the outer wall in exposure pond, and one end outer wall welding of another separating tube is on the outer wall of sedimentation basin.
Preferably, the side outer wall of the separating tube has been connected through a screw thread acidity-basicity sensor, and acidity-basicity sensor
Pass through signal wire with the signal output end of flow sensor and is connected with microprocessor.
Preferably, the separating tube is y-type structure, and the side outer wall both ends of separating tube have been connected through a screw thread corrosion resistant
Solenoid valve is lost, corrosion-proof solenoid valve is directed to acidity-basicity sensor to separating tube.
Preferably, the top exterior walls side of first erecting bed is welded with station, and the top exterior walls of station are opened
There is card slot, card slot inner wall is connected with display screen and control panel.
Preferably, the input terminal of the ozone generator and corrosion-proof solenoid valve is respectively connected with switch, and the input switched
End is connected by conducting wire with microprocessor.
Preferably, the side outer wall welding in the exposure pond has drain pipe, and one end outer wall of drain pipe is connected by screw thread
It is connected to drain valve.
The utility model has the following beneficial effects:
1. the liquids recovery after advanced treating can be referenced to pretreatment pool by being provided with recycle control valve and outlet tube
In, whole cost of sewage disposal is reduced, while the process in circulating sewage processing, improves treatment effeciency.
2., by flowing out the sewage quantity of pretreatment pool, being carried out with ozone generator is closed by being provided with flow sensor
The quantitative catalytic oxidation treatment of ozone, the deficiency for the amount of will cause does not control the cost of ozone with excessively.
3. can be neutralized for the pH value after sewage treatment by being provided with acid, alkaline neutralization pond, with closing acid
Alkalinity sensor can quantitatively convert the amount than acid solution and lye, control the dosage in whole process, reduce and neutralize cost.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of high efficiency advanced waste treatment apparatus structural schematic diagram;
Fig. 2 be the utility model proposes a kind of high efficiency advanced waste treatment apparatus the first mounting plate structure side view
Figure.
In figure: 1 first erecting bed, 2 recycle control valves, 3 ozone generators, 4 pretreatment pools, 5 catalysis oxidation ponds, 6 precipitatings
Pond, 7 stations, 8 second erecting beds, 9 alkali storage ponds, 10 alkaline neutralization ponds, 11 exposure ponds, 12 acid neutralization ponds, 13 acid solutions
Storage pool, 14 separating tubes, 15 acidity-basicity sensors.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.
Referring to Fig.1-2, a kind of high efficiency advanced waste treatment apparatus, including pretreatment pool 4, the first erecting bed 1, second peace
Platform 8 and exposure pond 11 are filled, is welded with catalysis oxidation pond 5 and sedimentation basin 6 at the top exterior walls central axes of the first erecting bed 1, and the
The top exterior walls side of one erecting bed 1 is fixed with ozone generator 3 by screw, and the output end of ozone generator 3 passes through pipeline
It connects with catalysis oxidation pond 5, and catalysis oxidation pond 5 and 6 opposite side outer wall of sedimentation basin are connected by pipeline, pretreatment pool
4 side outer wall welding has an outlet tube, and one end outer wall of outlet tube has a flow sensor by screw thread, and the one of flow sensor
On the outer wall in catalysis oxidation pond 5, the other side outer wall welding of pretreatment pool 4 has a water inlet pipe for side inner wall welding, and water inlet pipe
Outer wall has been connected through a screw thread recycle control valve 2, and one end outer wall welding of water inlet pipe is on the outer wall in exposure pond 11, the second installation
The top exterior walls of platform 8 are welded with acid neutralization pond 12, alkaline neutralization pond 10, acid solution storage pool 13 and alkali storage pond 9, and acid solution
The side outer wall welding of storage pool 13 has acid resistance connecting tube, and one end outer wall welding of acid resistance connecting tube is in acid neutralization pond 12
Outer wall on, the side outer wall welding in alkali storage pond 9 has alkali resistance connecting tube, and one end outer wall welding of alkali resistance connecting tube
On the outer wall of alkaline neutralization pond 10, the equal welding of bottom outer wall of acid neutralization pond 12 and alkaline neutralization pond 10 has separating tube 14,
And one end outer wall welding of one of separating tube 14, on the outer wall in exposure pond 11, one end outer wall of another separating tube 14 is molten
It connects on the outer wall of sedimentation basin 6.
In the utility model, the side outer wall of separating tube 14 has been connected through a screw thread acidity-basicity sensor 15, and pH value
The signal output end of sensor 15 and flow sensor passes through signal wire and is connected with microprocessor, the type of acidity-basicity sensor 15
It number is JY-SP20, the model FL-10 of flow sensor, separating tube 14 is y-type structure, and the side outer wall two of separating tube 14
End has been connected through a screw thread corrosion-proof solenoid valve, and corrosion-proof solenoid valve is directed to acidity-basicity sensor 15 to separating tube 14,
The top exterior walls side of first erecting bed 1 is welded with station 7, and the top exterior walls of station 7 are provided with card slot, card slot inner wall card
It is connected to display screen and control panel, the input terminal of ozone generator 3 and corrosion-proof solenoid valve is respectively connected with switch, and switchs defeated
Enter end to be connected by conducting wire with microprocessor, the model ARM9TDMI of microprocessor, the model OZ- of ozone generator 3
004, the side outer wall welding in exposure pond 11 has drain pipe, and one end outer wall of drain pipe has been connected through a screw thread drain valve.
Working principle: by dilution, filtering and the precipitating in pretreatment pool 4, liquid is sent to catalysis oxidation pond 5, flow
Sensor carries out quantitative catalysis oxidation with closing ozone generator 3, then the sewage of processing is sent to sedimentation basin 6 carry out it is secondary
Precipitating, then controlled by acidity-basicity sensor 15, into acid neutralization pond 12 or alkaline neutralization pond 10 is carried out, finally in exposure
11 high temperature exposure of pond, the water in exposure pond 11 can recycle in pretreatment pool 4.
The preferable specific embodiment of the above, only the utility model, but the protection scope of the utility model is not
It is confined to this, anyone skilled in the art is within the technical scope disclosed by the utility model, practical according to this
Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model
Within enclosing.
Claims (6)
1. a kind of high efficiency advanced waste treatment apparatus, including pretreatment pool (4), the first erecting bed (1), the second erecting bed (8)
With exposure pond (11), which is characterized in that be welded with catalysis oxidation pond at the top exterior walls central axes of first erecting bed (1)
(5) and sedimentation basin (6), and the top exterior walls side of the first erecting bed (1) is fixed with ozone generator (3) by screw, described
The output end of ozone generator (3) is connected by pipeline and catalysis oxidation pond (5), and catalysis oxidation pond (5) and sedimentation basin (6)
Opposite side outer wall is connected by pipeline, and the side outer wall welding of the pretreatment tank (4) has outlet tube, and the one of outlet tube
Outer wall is held to have flow sensor by screw thread, the side inner wall welding of flow sensor is on the outer wall of catalysis oxidation pond (5), institute
The other side outer wall welding for stating pretreatment pool (4) has water inlet pipe, and the outer wall of water inlet pipe has been connected through a screw thread recycle control valve
(2), on the outer wall of exposure pond (11), the top exterior walls of second erecting bed (8) are welded for one end outer wall welding of water inlet pipe
There are acid neutralization pond (12), alkaline neutralization pond (10), acid solution storage pool (13) and alkali storage pond (9), and acid solution storage pool
(13) side outer wall welding has acid resistance connecting tube, and one end outer wall welding of acid resistance connecting tube is in acid neutralization pond (12)
On outer wall, the side outer wall welding of the alkali storage pond (9) has alkali resistance connecting tube, and one end outer wall of alkali resistance connecting tube
On the outer wall of alkaline neutralization pond (10), the bottom outer wall of the acidity neutralization pond (12) and alkaline neutralization pond (10) is molten for welding
It is connected to separating tube (14), and one end outer wall welding of one of separating tube (14) is on the outer wall of exposure pond (11), another
One end outer wall welding of separating tube (14) is on the outer wall of sedimentation basin (6).
2. a kind of high efficiency advanced waste treatment apparatus according to claim 1, which is characterized in that the separating tube (14)
Side outer wall be connected through a screw thread acidity-basicity sensor (15), and the signal of acidity-basicity sensor (15) and flow sensor
Output end passes through signal wire and is connected with microprocessor.
3. a kind of high efficiency advanced waste treatment apparatus according to claim 1, which is characterized in that the separating tube (14)
Side outer wall both ends for y-type structure, and separating tube (14) have been connected through a screw thread corrosion-proof solenoid valve, corrosion-proof solenoid valve
Be directed to acidity-basicity sensor (15) to separating tube (14).
4. a kind of high efficiency advanced waste treatment apparatus according to claim 1, which is characterized in that first erecting bed
(1) top exterior walls side is welded with station (7), and the top exterior walls of station (7) are provided with card slot, and card slot inner wall is connected with
Display screen and control panel.
5. a kind of high efficiency advanced waste treatment apparatus according to claim 1, which is characterized in that the ozone generator
(3) and the input terminal of corrosion-proof solenoid valve is respectively connected with switch, and the input terminal switched is connected by conducting wire with microprocessor.
6. a kind of high efficiency advanced waste treatment apparatus according to claim 1, which is characterized in that the exposure pond (11)
Side outer wall welding have drain pipe, and one end outer wall of drain pipe has been connected through a screw thread drain valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821988545.8U CN209081620U (en) | 2018-11-29 | 2018-11-29 | A kind of high efficiency advanced waste treatment apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821988545.8U CN209081620U (en) | 2018-11-29 | 2018-11-29 | A kind of high efficiency advanced waste treatment apparatus |
Publications (1)
Publication Number | Publication Date |
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CN209081620U true CN209081620U (en) | 2019-07-09 |
Family
ID=67125944
Family Applications (1)
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CN201821988545.8U Active CN209081620U (en) | 2018-11-29 | 2018-11-29 | A kind of high efficiency advanced waste treatment apparatus |
Country Status (1)
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CN (1) | CN209081620U (en) |
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2018
- 2018-11-29 CN CN201821988545.8U patent/CN209081620U/en active Active
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TR01 | Transfer of patent right |
Effective date of registration: 20191113 Address after: 526600 500 meters west of Huanshi Road, Decheng industrial intensive base, Deqing County, Zhaoqing City, Guangdong Province Patentee after: Zhaoqing Sihao Environmental Protection Technology Co., Ltd Address before: 526600 Jinshazui International Plaza, No. 28 Yanjiang Second Road, Gaoyao District, Zhaoqing City, Guangdong Province, No. 8 of No. 6 Shop on the First Floor, T17-T18 Patentee before: Zhaoqing Jinlian Technology Research Co., Ltd. |
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