CN207828011U - Efficient low energy air-flow Landscape Water Quality purification system - Google Patents
Efficient low energy air-flow Landscape Water Quality purification system Download PDFInfo
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- CN207828011U CN207828011U CN201721728224.XU CN201721728224U CN207828011U CN 207828011 U CN207828011 U CN 207828011U CN 201721728224 U CN201721728224 U CN 201721728224U CN 207828011 U CN207828011 U CN 207828011U
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- low energy
- pond body
- purification system
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- Aeration Devices For Treatment Of Activated Polluted Sludge (AREA)
- Separation Of Suspended Particles By Flocculating Agents (AREA)
Abstract
The utility model is related to a kind of efficient low energy air-flow Landscape Water Quality purification system, including pond body, it is disposed with reaction zone, efficient mixed zone, upper floating region, Disengagement zone, clear water zone from left to right inside the pond body;It is provided with flocculating agent feeding device above the reaction zone, agitating device is provided in reaction zone;Microbubble generator is provided in the efficient mixed zone, the lower horizontal of the microbubble generator is provided with the four water conservancy diversion cutting pipe being circumferentially evenly arranged;It is evenly distributed with miniature stomata on the tube wall of the water conservancy diversion cutting pipe.A large amount of microbubbles are generated by microbubble generator, the pollutants such as the impurity in landscape water are adhered to using microbubble to be allowed to float on the surface under the action of flocculant, using the blowdown mode of water surface deslagging, it avoids as filter, sludge retention is on filtering layer, it is of long duration can hardened adhesion block, can not backwash cause to be unable to normal use.
Description
Technical field
The utility model is related to sewage-treatment plant, especially a kind of efficient low energy air-flow Landscape Water Quality purification system.
Background technology
The improvement of most landscape water process body uses conventional physical filter method, it cannot be guaranteed that the drop of water body organism pollution
It is low, water quality can only be improved in the short time, while filter clogging and hardened is easily caused using the method for filtering, treatment effect is bright
It is aobvious to have a greatly reduced quality;The process object of coagulant sedimentation is suspended matter and colloidal impurity in water, and sludge volume is big, but landscape water contains
Oxygen amount is few, and power of regeneration is low;Aeration is using nature drop (waterfall, fountain etc.) or artificial aeration to water reoxygenation, aeration
It is high to be oxygenated power energy consumption, and is difficult to realize basic denitrogenation dephosphorizing, therefore auxiliary governing measure can only be used as.
Utility model content
The purpose of this utility model is to provide a kind of efficient low energy air-flow Landscape Water Quality purification system, which reaches
The effect of high-efficient purification.
In order to achieve the above objectives, the technical solution adopted in the utility model is as follows:A kind of efficient low energy air-flow Landscape Water Quality
Purification system, including pond body, be disposed with from left to right inside the pond body reaction zone, efficient mixed zone, upper floating region, point
From area, clear water zone;It is provided with flocculating agent feeding device above the reaction zone, agitating device is provided in reaction zone;Institute
Microbubble generator is provided in the efficient mixed zone stated, the lower horizontal of the microbubble generator is provided with circumferentially
Four water conservancy diversion cutting pipe of even arrangement;It is evenly distributed with miniature stomata on the tube wall of the water conservancy diversion cutting pipe.
Preferably, the left side of the pond body is connected with water inlet pipe, the water inlet pipe and pond body close to the position of bottom
Interior reaction zone connection.
Preferably, the right side of the pond body is connected with outlet pipe, the outlet pipe and pond body close to the position at top
Interior clear water zone connection.
Preferably, it is provided with Slag Scraping Device at the top of the upper floating region and Disengagement zone;The right hand top of the Disengagement zone
The position of alignment Slag Scraping Device is provided with dross collecting tank.
Preferably, the right side of the Disengagement zone is horizontally disposed with close to the position of bottom clear water collector pipe, and described is clear
One end of water collector pipe is closed, and the other end is connected to clear water zone;It is uniformly distributed on the tube wall of clear water collector pipe to have multiple gully-holes respectively.
Preferably, it is separated by preceding training wall between the efficient mixed zone and upper floating region, the preceding training wall
Top and the top of pond body are seamlessly connected, and the spacing of the bottom of preceding training wall and the bottom of pond body is 150-250mm.
Preferably, it is separated by rear training wall between the upper floating region and Disengagement zone;The bottom of the rear training wall
It is seamlessly connected with the bottom of pond body, the spacing at top and the top of pond body is 150-250mm;The top of training wall is towards right side afterwards
It tilts.
Preferably, a kind of efficient low energy air-flow Landscape Water Quality purification system, further includes controller, nephelometer, stream
Gauge, PH meters;The nephelometer, flowmeter, PH meters are separately mounted to the upper of water inlet pipe, are respectively used to measure and flow into water inlet pipe
Water turbidity, flow, pH value;Nephelometer, flowmeter, PH meters, flocculating agent feeding device are electrically connected with the controller respectively;Turbidity
By the data transfer measured to controller, controller is filled according to the data control flocculant concentration received for meter, flowmeter, PH meters
It sets and adds a certain amount of flocculant.
The system structure operation principle of the utility model:The reaction for needing the landscape water purified to be flowed into from water inlet pipe in pond body
The data measured are reached control by area, nephelometer, flowmeter, PH meters respectively to being measured by the water in water inlet pipe
Device, controller add a certain amount of flocculant according to the data control flocculating agent feeding device received in reaction zone;Reaction
With landscape water sufficient flocculation reaction occurs under the stirring of agitating device for the flocculant in area, and the suspended matter in landscape water is being wadded a quilt with cotton
Alumen ustum is formed under the action of solidifying agent, and efficient mixed zone is flow to landscape water;Microbubble generator in efficient mixed zone generates
Microbubble, and the miniature stomata on pipe is cut by water conservancy diversion and is discharged into water, a large amount of microbubble is adhered on alumen ustum, and upper
Alumen ustum is driven to float in floating region and Disengagement zone, alumen ustum is cumulative and forms one layer of scum layer on the water surface, and Slag Scraping Device is by dross
Layer is scraped to dross collecting tank, and the water in Disengagement zone flows into clear water collector pipe from gully-hole, clear water zone is then flowed into, most afterwards through going out
Water pipe flows back in landscape pond.
The beneficial effects of the utility model:
1, microbubble generator generates a large amount of microbubbles, and adhering to the pollutants such as the impurity in landscape water using microbubble is allowed to
It floats on the surface under the action of flocculant, using the blowdown mode of water surface deslagging, avoids as filter, sludge retention exists
On filtering layer, it is of long duration can hardened adhesion block, can not backwash cause to be unable to normal use.
2, microbubble generator bottom end is provided with the four water conservancy diversion cutting pipe being circumferentially evenly arranged, and water conservancy diversion cuts the pipe of pipe
Miniature stomata is evenly distributed on wall, therefore the device has the function of the continuous range for dissipating microbubble around, spreading
Can only make the area that bubble is involved vertically upward far better than traditional micropore air distribution head, thus it is more efficient, bubble is closeer,
Aeration quantity is big, and oxygen in water increases.
3, directly the scum layer formed on the water surface is scraped to ash pit using Slag Scraping Device, moisture percentage in sewage sludge is low, without dirt
Mud after-treatment.
4, system integration is arranged, chemicals dosing plant, microbubble generator are scraped slag, slag-draining device, electric control gear etc. and be made in
On one ontology, arrangement is simple, takes up little area, and operational management is convenient.
Description of the drawings
FIG. 1 is a schematic structural view of the utility model.
Fig. 2 is that horizontally disposed figure is managed in water conservancy diversion cutting.
In figure:1- pond bodies;2- reaction zones;The efficient mixed zones 3-;The upper floating regions 4-;The Disengagement zone 5-;The clear water zones 6-;7- flocculants
Throwing device;8- agitating devices;9- microbubble generators;10- water conservancy diversion cutting pipe;The miniature stomatas of 11-;12- water inlet pipes;13- goes out
Water pipe;14- Slag Scraping Devices;15- dross collecting tanks;16- clear water collector pipes;17- gully-holes;Training wall before 18-;Training wall after 19-;
20- controllers.
Specific implementation mode
The utility model is described in detail with reference to specific embodiments and the drawings.
Embodiment 1
As shown in Figure 1, a kind of efficient low energy air-flow Landscape Water Quality purification system, including pond body 1, inside the pond body 1
It is disposed with reaction zone 2, efficient mixed zone 3, upper floating region 4, Disengagement zone 5, clear water zone 6 from left to right;The reaction zone 2
Top is provided with flocculating agent feeding device 7, and agitating device 8 is provided in reaction zone 2;It is provided in the efficient mixed zone 3
Microbubble generator 9, the lower horizontal of the microbubble generator 9 are provided with the four water conservancy diversion cutting being circumferentially evenly arranged
Pipe 10;It is evenly distributed with miniature stomata 11 on the tube wall of the water conservancy diversion cutting pipe 10.
The left side of the pond body 1 is connected with water inlet pipe 12 close to the position of bottom, the water inlet pipe 12 in pond body 1
Reaction zone 2 be connected to.
The right side of the pond body 1 is connected with outlet pipe 13 close to the position at top, the outlet pipe 13 in pond body 1
Clear water zone 6 be connected to.
The top of the upper floating region 4 and Disengagement zone 5 is provided with Slag Scraping Device 14;The right hand top pair of the Disengagement zone 5
The position of neat Slag Scraping Device 14 is provided with dross collecting tank 15.
The right side of the Disengagement zone 5 is horizontally disposed with close to the position of bottom clear water collector pipe 16, the clear water collection
One end of water pipe 16 is closed, and the other end is connected to clear water zone 6;It is uniformly distributed on the tube wall of clear water collector pipe 16 to have multiple gully-holes respectively
17。
It is separated by preceding training wall 18 between the efficient mixed zone 3 and upper floating region 4, the top of the preceding training wall 18
Portion and the top of pond body 1 are seamlessly connected, and the spacing of the bottom of preceding training wall 18 and the bottom of pond body 1 is 150-250mm.
It is separated by rear training wall 19 between the upper floating region 4 and Disengagement zone 5;The bottom of the rear training wall 19 with
The bottom of pond body 1 is seamlessly connected, and the spacing at top and the top of pond body 1 is 150-250mm;The top of training wall 19 is towards the right side afterwards
It rolls oblique.
A kind of efficient low energy air-flow Landscape Water Quality purification system, further includes controller (20), nephelometer, flow
Meter, PH meters;The nephelometer, flowmeter, PH meters are separately mounted to the upper of water inlet pipe 12, are respectively used to measure and flow into water inlet pipe
Turbidity, flow, the pH value of 12 water;Nephelometer, flowmeter, PH meters, flocculating agent feeding device 7 are electrically connected with controller (20) respectively
It connects;Nephelometer, flowmeter, PH meters give the data transfer measured to controller (20), and controller (20) is according to the data received
Control flocculating agent feeding device 7 adds a certain amount of flocculant.
The system structure operation principle of the utility model:The landscape water purified is needed to be flowed into pond body 1 from water inlet pipe 12
Reaction zone 2, nephelometer, flowmeter, PH meters pass the data measured respectively to being measured by the water in water inlet pipe 12
To controller (20), controller (20) adds centainly according to the data control flocculating agent feeding device 7 received in reaction zone 2
The flocculant of amount;With landscape water sufficient flocculation reaction, scape occur under the stirring of agitating device 8 for the flocculant in reaction zone 2
The suspended matter seen in water forms alumen ustum under the action of flocculant, and flow to efficient mixed zone 3 with landscape water;Efficient mixed zone 3
Interior microbubble generator 9 generates microbubble, and cuts the miniature stomata 11 on pipe 10 by water conservancy diversion and be discharged into water, largely
Microbubble is adhered on alumen ustum, and drives alumen ustum to float in upper floating region 4 and Disengagement zone 5, and alumen ustum is cumulative and on the water surface
One layer of scum layer is formed, Slag Scraping Device 14 scrapes scum layer to dross collecting tank 15, and the water in Disengagement zone 5 is flowed into from gully-hole 17
Then clear water collector pipe 16 flows into clear water zone 6, is most flowed back in landscape pond through outlet pipe 13 afterwards.
Claims (8)
1. a kind of efficient low energy air-flow Landscape Water Quality purification system, including pond body (1), the pond body (1) is internal from left to right
It is disposed with reaction zone (2), efficient mixed zone (3), upper floating region (4), Disengagement zone (5), clear water zone (6);The reaction zone
(2) it is provided with flocculating agent feeding device (7) above, agitating device (8) is provided in reaction zone (2);It is characterized in that:It is described
Efficient mixed zone (3) in be provided with microbubble generator (9), the lower horizontal of the microbubble generator (9) is provided with
The four water conservancy diversion cutting pipe (10) being circumferentially evenly arranged;It is evenly distributed on the tube wall of the water conservancy diversion cutting pipe (10) miniature
Stomata (11).
2. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:The pond
The left side of body (1) is connected with water inlet pipe (12), the water inlet pipe (12) and the reaction zone in pond body (1) close to the position of bottom
(2) it is connected to.
3. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:The pond
The right side of body (1) is connected with outlet pipe (13), the outlet pipe (13) and the clear water zone in pond body (1) close to the position at top
(6) it is connected to.
4. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:Described is upper
It is provided with Slag Scraping Device (14) at the top of floating region (4) and Disengagement zone (5);The right hand top of the Disengagement zone (5) is aligned Slag Scraping Device
(14) position is provided with dross collecting tank (15).
5. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:Point
Right side from area (5) is horizontally disposed with close to the position of bottom clear water collector pipe (16), and the one of the clear water collector pipe (16)
End seal is closed, and the other end is connected to clear water zone (6);It is uniformly distributed on the tube wall of clear water collector pipe (16) to have multiple gully-holes (17) respectively.
6. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:The height
It is separated by preceding training wall (18) between effect mixed zone (3) and upper floating region (4), the top of the preceding training wall (18) and pond body
(1) top is seamlessly connected, and the spacing of the bottom of preceding training wall (18) and the bottom of pond body (1) is 150-250mm.
7. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 1, it is characterised in that:Described is upper
It is separated by rear training wall (19) between floating region (4) and Disengagement zone (5);The bottom of the rear training wall (19) and pond body (1)
Bottom be seamlessly connected, the spacing at top and the top of pond body (1) is 150-250mm;The top of training wall (19) is towards the right side afterwards
It rolls oblique.
8. a kind of efficient low energy air-flow Landscape Water Quality purification system according to claim 2, it is characterised in that:It further include control
Device (20) processed, nephelometer, flowmeter, PH meters;The nephelometer, flowmeter, PH meters are separately mounted to the upper of water inlet pipe (12),
It is respectively used to measure turbidity, flow, the pH value of the water for flowing into water inlet pipe (12);Nephelometer, flowmeter, PH meters, flocculant concentration
Device (7) is electrically connected with controller (20) respectively;Nephelometer, flowmeter, PH meters give the data transfer measured to controller (20),
Controller (20) adds a certain amount of flocculant according to the data control flocculating agent feeding device (7) received.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721728224.XU CN207828011U (en) | 2017-12-13 | 2017-12-13 | Efficient low energy air-flow Landscape Water Quality purification system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721728224.XU CN207828011U (en) | 2017-12-13 | 2017-12-13 | Efficient low energy air-flow Landscape Water Quality purification system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207828011U true CN207828011U (en) | 2018-09-07 |
Family
ID=63387330
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721728224.XU Expired - Fee Related CN207828011U (en) | 2017-12-13 | 2017-12-13 | Efficient low energy air-flow Landscape Water Quality purification system |
Country Status (1)
Country | Link |
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CN (1) | CN207828011U (en) |
-
2017
- 2017-12-13 CN CN201721728224.XU patent/CN207828011U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180907 Termination date: 20191213 |
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CF01 | Termination of patent right due to non-payment of annual fee |