CN206375738U - A kind of oxygen-enriched aeration mixing wastewater with air milipore filter - Google Patents
A kind of oxygen-enriched aeration mixing wastewater with air milipore filter Download PDFInfo
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- CN206375738U CN206375738U CN201621473230.0U CN201621473230U CN206375738U CN 206375738 U CN206375738 U CN 206375738U CN 201621473230 U CN201621473230 U CN 201621473230U CN 206375738 U CN206375738 U CN 206375738U
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- air
- inlet pipe
- air inlet
- water
- oxygen
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Abstract
The utility model discloses a kind of oxygen-enriched aeration mixing wastewater with air milipore filter, including, water inlet component, it includes water inlet pipe and the electromagnetic valve being arranged on water inlet pipe;Air intake assembly, it includes the first air inlet pipe, the second air inlet pipe, the first air valve being arranged in the first air inlet pipe and the second air valve and gas-filtering device that are arranged in the second air inlet pipe;Filter assemblies, it includes Filter column, the mixing wastewater with air film that is arranged in Filter column, the concentrated water outlet pipe and production water outlet pipe for being arranged at filtering top end, and Filter column bottom is respectively communicated with water inlet pipe, the first air inlet pipe and the second air inlet pipe;And control assembly, it includes being arranged at COD detectors and controller on water inlet pipe, and controller includes COD signal acquisition modules, the first comparison module, the first air valve drive module and the second air valve drive module.The utility model can improve the oxygen content in air inlet gas, more thoroughly remove the organic pollution in raw water.
Description
Technical field
The utility model is related to purifier field, and in particular to a kind of oxygen-enriched aeration mixing wastewater with air milipore filter.
Background technology
Growth and industrial expansion with population, increasing organic pollution are produced, for people's domestic water
Very serious influence is caused, and removing the organic pollution in raw water needs to consume substantial amounts of oxygen, conventional milipore filter equipment
All it is to be passed directly into air to carry out Air Exposure, for many raw waters of organic pollution content, the oxygen content in air is past
It is past to be not enough to thoroughly remove organic pollution.
The content of the invention
In view of this, it is necessary to which the gases used middle oxygen content of aeration, quick reduction raw water COD value can be improved by providing one kind
Oxygen-enriched aeration mixing wastewater with air milipore filter.
The technical solution adopted in the utility model:A kind of oxygen-enriched aeration mixing wastewater with air milipore filter, including,
Water inlet component, it includes water inlet pipe and the electromagnetic valve being arranged on the water inlet pipe;
Air intake assembly, it includes the first air inlet pipe, the second air inlet pipe, the first air valve being arranged in first air inlet pipe
With the second air valve and gas-filtering device being set in turn in along airflow direction in second air inlet pipe, first air inlet pipe
It is respectively communicated with the inlet end of second air inlet pipe and outlet side;
Filter assemblies, it includes Filter column, the mixing wastewater with air film that is arranged in the Filter column, be arranged at the Filter column
Top and the concentrated water outlet pipe that is connected with the Filter column and be arranged at the filtering top end and with the mixing wastewater with air film one
The production water outlet pipe of connection is held, the Filter column bottom is respectively communicated with the water inlet pipe, first air inlet pipe and described second
Air inlet pipe;And
Control assembly, it includes the COD detectors being arranged on the water inlet pipe and controller, and the controller includes
COD signal acquisition modules, the first comparison module, the first air valve drive module and the second air valve drive module, the COD signals are adopted
Collection module is used for the first electric signal for gathering the COD detectors detection COD value formation, and first comparison module is used to compare
Size between first electric signal and first threshold simultaneously sends corresponding instruction and arrives the first air valve drive module and institute
The second air valve drive module is stated, if less than driving first air valve to open if the first threshold, second air valve is driven
Close, if more than driving first air valve to close if the first threshold, drive second air valve to open.
Compared with prior art, the utility model sets up a pipeline for carrying gas-filtering device on air intake assembly,
When COD value in raw water is too high, it can be pre-processed by the way that the pipeline is gases used to aeration, the oxygen in increase gas
Content, to guarantee more thoroughly to dispose former organic pollutants, further improves the water quality that water is produced after filtering.
Brief description of the drawings
Fig. 1 show the attachment structure schematic diagram of oxygen-enriched aeration mixing wastewater with air milipore filter in the utility model.
Fig. 2 show the connection framework figure of control assembly in the utility model.
Embodiment
The utility model is further described below in conjunction with accompanying drawing, example is served only for explaining the utility model, and
It is non-to be used to limit scope of the present utility model.
As shown in figure 1, be a kind of structural representation of oxygen-enriched aeration mixing wastewater with air milipore filter 100 in the utility model, bag
Include water inlet component 10, air intake assembly 20, filter assemblies 30 and control assembly 40.
The water inlet component 10 includes water inlet pipe 11 and electromagnetic valve 12, and the electromagnetic valve 12 is arranged at the water inlet pipe
On 11, the turnover for controlling raw water, and raw water flow of inlet water size.In order to which the input for raw water provides power, the water inlet
Component 10 also includes being arranged at the water pump 13 on the water inlet pipe 11 and along water (flow) direction before the electromagnetic valve 12.
It is gentle that the air intake assembly 20 includes the first air inlet pipe 21, the second air inlet pipe 22, the first air valve 23, the second air valve 24
Body filter 25.The inlet end and air outlet section of first air inlet pipe 21 and second air inlet pipe 22 are respectively communicated with, and are formed
Two air inlet branch roads, first air valve 23 is arranged in first air inlet pipe 21, second air valve 24 and the gas
Filter 25 is set in turn in second air inlet pipe 22 along airflow direction.By controlling first air valve 23 and second
The switch of air valve 24 can select air inlet branch road.Specifically, when raw water COD value is less than preset value, i.e., it is aerobic in raw water
When organic pollution content is less, only the place branch road of the first air inlet pipe 21 need to be turned on;It is higher than in raw water COD value and presets
During value, i.e., when aerobic and organic pollution content is more in raw water, then turn on the place branch road of the second air inlet pipe 22, the branch road
The gas-filtering device 25 of setting can be pre-processed to air inlet, it is preferred that the gas-filtering device 25 is oxygen permeable membrane, can
So that the oxygen in air inlet passes through, and the carbon dioxide in air inlet, nitrogen etc. are filtered out, so that the oxygen improved in air inlet contains
Amount, more thoroughly to remove organic pollution in gas.In order to which the input for gas provides power, the air intake assembly 20 is also wrapped
Include and be arranged in first air inlet pipe 21 and be located at first air inlet pipe 21 and second air inlet pipe 22 along airflow direction
Air pump 26 before joint.
The filter assemblies 30 include Filter column 31, mixing wastewater with air film 32, concentrated water outlet pipe 33 and production water outlet pipe 34.Institute
State mixing wastewater with air film 32 to be arranged in the Filter column 31, the bottom of Filter column 31 is respectively communicated with the water inlet pipe 11, described
First air inlet pipe 21 and second air inlet pipe 22, raw water and air inlet are passed through by the gas in the Filter column 31 after mixed aeration
The filtration treatment of water hybrid films 32.The concentrated water outlet pipe 33 and the production water outlet pipe 34 may be contained within the Filter column 31 and push up
End, the concentrated water outlet pipe 33 is connected with the Filter column 31, the production water outlet pipe 34 and described one end of mixing wastewater with air film 32
Connection, raw water forms production water after the mixing wastewater with air film 32 filtering in the mixing wastewater with air film 32, and via the production
Water outlet pipe 34 is discharged, and can form the higher waste water of concentration in the Filter column 31 after filtering after a while, can be through
Discharged by the concentrated water outlet pipe 33.When the quantity of filter assemblies 30 is more than or equal to three, in order to ensure multiple mistakes
Filter the intake pressure of component 30 consistent with admission pressure, the distribution annular in shape of multiple filter assemblies 30, the water inlet pipe 11 is from institute
The circle centre position access of ring-type is stated, and multiple filter assemblies 30 are respectively communicated with by branch pipe, first air inlet pipe 21 and the
The attachment structure and the water inlet pipe 11 that two air inlet pipe 22 access multiple filter assemblies 30 access multiple filter assemblies
30 attachment structure is identical.
As shown in Fig. 2 the control assembly 40 includes COD detectors 41 and controller 42, the COD detectors 41 are set
In on the water inlet pipe 11.The controller 42 includes COD signal acquisition modules 421, the first comparison module 422, the first air valve
The air valve drive module 424 of drive module 423 and second, the COD signal acquisition modules 421 are used to gather the COD detectors
First electric signal of 41 detection COD value formation, first comparison module 422 is used to compare first electric signal and the first threshold
Size between value simultaneously sends corresponding instruction and arrives the first air valve drive module 423 and the second air valve drive module
424, if less than driving first air valve 23 to open if the first threshold, drive second air valve 24 to close, i.e., now
Raw water COD value is relatively low, without handling air inlet, turns on the place branch road of the first air inlet pipe 21, if more than described
First threshold then drives first air valve 23 to close, and drives second air valve 24 to open, i.e., now raw water COD value is higher,
Air inlet need to be handled, the oxygen content in increase air inlet need to turn on the place branch road of the second air inlet pipe 22.
As one kind optimization, the control assembly 40 also includes being arranged on the water inlet pipe 11 and along water (flow) direction being located at
Hydraulic pressure sensor 43 after the electromagnetic valve 12, the controller 42 also includes hydraulic signal acquisition module 425, second and compared
Compared with module 426 and electromagnetic valve drive module 427, the hydraulic signal acquisition module 425 is used to gather the hydraulic pressure sensor
The second hydraulically-formed electric signal of 43 detections, second comparison module 426 is used to compare second electric signal and the second threshold
Size between value simultaneously sends corresponding instruction and arrives the electromagnetic valve drive module 427, if less than being driven if the Second Threshold
Move the electromagnetic valve 12 and tune up valve openings, i.e., now raw water intake pressure is smaller, it is necessary to increase intake pressure, to ensure
The normal work of filter assemblies 30 is stated, drives the electromagnetic valve 12 to turn valve openings down if the Second Threshold is more than, i.e.,
Now raw water intake pressure is larger, it is necessary to reduce intake pressure, prevents because intake pressure crosses filter assemblies 30 described in macrolesion.
Compared with prior art, the utility model sets up a pipeline for carrying gas-filtering device on air intake assembly,
When COD value in raw water is too high, it can be pre-processed by the way that the pipeline is gases used to aeration, the oxygen in increase gas
Content, to guarantee more thoroughly to dispose former organic pollutants, further improves the water quality that water is produced after filtering.
Preferred embodiment of the present utility model is the foregoing is only, it is all in this practicality not to limit the utility model
Within new spirit and principle, any modification, equivalent substitution and improvements made etc. should be included in guarantor of the present utility model
Within the scope of shield.
Claims (6)
1. a kind of oxygen-enriched aeration mixing wastewater with air milipore filter, it is characterised in that including,
Water inlet component, it includes water inlet pipe and the electromagnetic valve being arranged on the water inlet pipe;
Air intake assembly, it includes the first air inlet pipe, the second air inlet pipe, the first air valve being arranged in first air inlet pipe and edge
Airflow direction is set in turn in the second air valve and gas-filtering device in second air inlet pipe, first air inlet pipe and institute
The inlet end and outlet side for stating the second air inlet pipe are respectively communicated with;
Filter assemblies, it includes Filter column, the mixing wastewater with air film that is arranged in the Filter column, be arranged at the filtering top end
And the concentrated water outlet pipe that is connected with the Filter column and be arranged at the filtering top end and connect with described mixing wastewater with air film one end
Logical production water outlet pipe, the Filter column bottom is respectively communicated with the water inlet pipe, first air inlet pipe and second air inlet
Pipe;And
Control assembly, it includes the COD detectors being arranged on the water inlet pipe and controller, and the controller is believed including COD
Number acquisition module, the first comparison module, the first air valve drive module and the second air valve drive module, the COD signal acquisitions mould
Block is used for the first electric signal for gathering the COD detectors detection COD value formation, and first comparison module is used for relatively more described
Size between first electric signal and first threshold simultaneously sends corresponding instruction to the first air valve drive module and described the
Two air valve drive modules, if less than driving first air valve to open if the first threshold, drive second air valve to close,
If more than driving first air valve to close if the first threshold, second air valve is driven to open.
2. oxygen-enriched aeration mixing wastewater with air milipore filter as claimed in claim 1, it is characterised in that the water inlet component also includes setting
Water pump before being placed on the water inlet pipe and being located at the electromagnetic valve along water (flow) direction.
3. oxygen-enriched aeration mixing wastewater with air milipore filter as claimed in claim 1, it is characterised in that the air intake assembly also includes setting
It is placed in first air inlet pipe and is located at along airflow direction before first air inlet pipe and the second air inlet pipe joint
Air pump.
4. oxygen-enriched aeration mixing wastewater with air milipore filter as claimed in claim 1, it is characterised in that the gas-filtering device is richness
Oxygen film.
5. oxygen-enriched aeration mixing wastewater with air milipore filter as claimed in claim 1, it is characterised in that the quantity of the filter assemblies is big
When three, multiple filter assemblies are annularly distributed.
6. oxygen-enriched aeration mixing wastewater with air milipore filter as claimed in claim 1, it is characterised in that the control assembly also includes setting
Hydraulic pressure sensor after being placed on the water inlet pipe and being located at the electromagnetic valve along water (flow) direction, the controller also includes
Hydraulic signal acquisition module, the second comparison module and electromagnetic valve drive module, the hydraulic signal acquisition module are used to gather
The hydraulic pressure sensor detects the second hydraulically-formed electric signal, and second comparison module is used to compare second electric signal
Size between Second Threshold simultaneously sends corresponding instruction and arrives the electromagnetic valve drive module, if less than the Second Threshold
Then drive the electromagnetic valve to tune up valve openings, drive the electromagnetic valve to turn valve down if the Second Threshold is more than and open
Mouthful.
Priority Applications (1)
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CN201621473230.0U CN206375738U (en) | 2016-12-30 | 2016-12-30 | A kind of oxygen-enriched aeration mixing wastewater with air milipore filter |
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CN201621473230.0U CN206375738U (en) | 2016-12-30 | 2016-12-30 | A kind of oxygen-enriched aeration mixing wastewater with air milipore filter |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111359462A (en) * | 2020-03-23 | 2020-07-03 | 深圳市橘井舒泉技术有限公司 | Ozone-water mixer and ozone-water preparation device |
CN114198637A (en) * | 2021-11-17 | 2022-03-18 | 广西电网有限责任公司桂林供电局 | SF (sulfur hexafluoride)6Gas anti-overcharging inflating and vacuum pumping device |
-
2016
- 2016-12-30 CN CN201621473230.0U patent/CN206375738U/en active Active
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111359462A (en) * | 2020-03-23 | 2020-07-03 | 深圳市橘井舒泉技术有限公司 | Ozone-water mixer and ozone-water preparation device |
CN111359462B (en) * | 2020-03-23 | 2022-10-11 | 深圳市橘井舒泉技术有限公司 | Ozone-water mixer and ozone-water preparation device |
CN114198637A (en) * | 2021-11-17 | 2022-03-18 | 广西电网有限责任公司桂林供电局 | SF (sulfur hexafluoride)6Gas anti-overcharging inflating and vacuum pumping device |
CN114198637B (en) * | 2021-11-17 | 2023-08-11 | 广西电网有限责任公司桂林供电局 | SF (sulfur hexafluoride) 6 Gas anti-overcharging and vacuumizing device |
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