CN204298183U - A kind of sewage disposal system - Google Patents
A kind of sewage disposal system Download PDFInfo
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- CN204298183U CN204298183U CN201420768133.9U CN201420768133U CN204298183U CN 204298183 U CN204298183 U CN 204298183U CN 201420768133 U CN201420768133 U CN 201420768133U CN 204298183 U CN204298183 U CN 204298183U
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- China
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- sensor
- control unit
- delivery port
- filter
- sewage disposal
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Abstract
The utility model relates to a kind of sewage disposal system.It comprises top and is provided with the reactor (3) that water inlet (1) and bottom are provided with delivery port (2), and light source (4), it is characterized in that: it has additional sensor (5), filter (6), control unit (7) and display button unit (8); Catalyst particles interlayer (9) is set up in its reactor (3) inside; Light source (4) is located at catalyst particles interlayer (9) top, and is connected with control unit (7); Sensor (5) is located at reactor (3) inner inlet mouth (1) and delivery port (2) place respectively; Sensor (5) is connected with control unit (7); Control unit (7) is connected with display button unit (8); Delivery port (2) is communicated with filter (6), filter (6) is set up secondary delivery port (10).This utility model energy real time on-line monitoring, realizes intelligentized control method, processes more simple and efficient.
Description
Technical field
The utility model relates to and adopts photocatalysis oxidation technique to dispose of sewage technical field, particularly relates to a kind of sewage disposal system.
Background technology
Photocatalysis oxidation technique (Photocatalytic Oxidation, PCO) dispose of sewage in pollutant be a new technology of rising in recent ten years, the research at present in pollutant abatement technology field is very active.Its general principle is: semiconductor light-catalyst, comprises TiO
2, SnO
2, ZnO
2ag
3pO
4biOCl Bi
4ti
3o
12biWO
3after being subject to illumination, just form electron-hole pair, the OH free radical that oxidability is extremely strong can be produced in water, thus by pollutant oxidative degradation.Utilize the process of ultraviolet light (Ultraviolet, UV) radiation oxidation, accelerate the oxidative degradation of pollutant, some difficult reactions occurred are carried out smoothly, substantially increases rates of oxidative degradation.
At present, when adopting photocatalysis oxidation technique to dispose of sewage, existing sewage disposal system can only be suitable for nano powder catalyst, but nano powder catalyst is unfavorable for reclaiming, easily cause secondary pollution, therefore, current research work is being developed visual cognitive ability on nano-sized membrane, but the sewage disposal system being suitable for testing nano-sized membrane catalytic performance is considerably less, and it cannot realize mostly to before sewage disposal, pollutant levels after process neutralisation treatment carry out Real-Time Monitoring, the manual steps of laboratory technician is needed in processing procedure, greatly waste labour, detection efficiency is not high.
Utility model content
The purpose of this utility model is to provide a kind of sewage disposal system, the whole processing procedure of this sewage disposal system energy real time on-line monitoring, and can realize whole process intelligentized control method, its processing procedure is more simple and efficient, is suitable for test nano-sized membrane catalytic performance.
The purpose of this utility model is achieved in that
A kind of sewage disposal system, it comprises top and is provided with the reactor that water inlet and bottom are provided with delivery port, and light source, it is characterized in that: it also has additional sensor, filter, control unit and display button unit; Described inside reactor has additional catalyst particles interlayer; Described light source is located at described catalyst particles interlayer top, and is connected with described control unit; Described sensor is located at water inlet and the water outlet of described inside reactor respectively; Described sensor is connected with described control unit; Described control unit is connected with described display button unit; Described delivery port is communicated with described filter, and described filter also has additional secondary delivery port.
Above-mentioned catalyst particles interlayer is at least two-layer, and arranges an above-mentioned light source shared between adjacent two-layer described catalyst particles interlayer.By increasing multi-layer catalyst particle interlayer and correspondingly arranging light source between catalyst particles interlayer, take full advantage of light source, and multiple filtration can improve filter effect greatly.
In above-mentioned reactor, topmost also has additional interlayer, and described interlayer is evenly distributed with hole.By this setting, the sewage being flowed into this system by water inlet is assembled on interlayer, and by hole inflow catalyst particle interlayer evenly distributedly.
The water inlet of above-mentioned inside reactor, also has additional level sensor, and described level sensor is connected with above-mentioned control unit.The back with water inlet line of above-mentioned water inlet is provided with valve, and described valve is connected with above-mentioned control unit.By setting up level sensor, and the valve in back with water inlet line is connected with control unit, can water level in Real-Time Monitoring reactor, and regulate amount of inlet water in real time, control water inlet flow velocity and the time of staying, thus the water of different pollution level is effectively processed.
Above-mentioned filter is also connected with above-mentioned control unit, to realize the intelligentized control method to filter.
Secondary water outlet in above-mentioned filter also has additional sensor, and described sensor is connected with above-mentioned control unit.By setting up sensor further, achieving and the water of gained after final process is monitored.
Also tank and pump is had additional successively between above-mentioned delivery port and above-mentioned filter.By delivery port is communicated with tank, achieves the sewage after by process and be incorporated in tank, and and then by pump, pump in filter and filter further, improve filter effect further.
The sensor, is specially Fibre Optical Sensor.By selecting sensor to be Fibre Optical Sensor, achieve the accurate measurements to water quality.
Above-mentioned display button unit, is specifically provided with display screen and touch key-press screen, controls in order to the switch and brightness regulation realizing mercury lamp, and the display and control of sensor.
Above-mentioned light source, specifically can adopt mercury lamp or uviol lamp.
The utility model has following beneficial effect:
The utility model achieves the two stages for the treatment of process to sewage, the process of Organic substance in water molecular chemistry is removed by photocatalysis oxidation technique by it, and connect filter by physical treatment removings such as the particulate contaminant in sewage, and set up intelligent monitoring device further, achieve the uninterrupted process of sewage, the real time and on line monitoring of result, greatly reduce workload, monitoring is operated easier, fast, be suitable for test nano-sized membrane catalytic performance, also can be used as the purified treatment of household water purifier for slight pollution water quality, applied range.
Accompanying drawing explanation
Fig. 1 is the structural representation of sewage disposal system described in the utility model embodiment 1.
Fig. 2 is the structural representation of the plastic interlayer in sewage disposal system described in Fig. 1.
Fig. 3 is the structural representation of sewage disposal system described in the utility model embodiment 2.
Detailed description of the invention
Be below the utility model preferred embodiment, and be not intended to limit protection domain of the present utility model.
Embodiment 1
As shown in Fig. 1 ~ 2: a kind of sewage disposal system, it comprises top and is provided with the reactor 3 that water inlet 1 and bottom are provided with delivery port 2, and mercury lamp 4, Fibre Optical Sensor 5, filter 6, control unit 7 and display button unit 8; Its reactor 3 inside has additional three layers of catalyst particles interlayer 9; Mercury lamp 4 is located between two adjacent catalyst particles interlayers 9 respectively, and mercury lamp 4 is connected with control unit 7; Fibre Optical Sensor 5 is located at water inlet 1 place and delivery port 2 place of reactor 3 inside respectively; Fibre Optical Sensor 5 is all connected with control unit 7; Control unit 7 is connected with display button unit 8; Delivery port 2 is communicated with filter 6, and filter 6 is connected with control unit 7, and filter 6 also has additional secondary delivery port 10; In reactor 3, topmost also has additional plastic interlayer 11, and this plastic interlayer 11 is evenly distributed with hole 12; Its display button unit 8, is specifically provided with display screen and touch key-press screen.
In practical application, pending sewage is inner through water inlet 1 inflow reactor 3, be uniformly distributed at plastic interlayer 11 place and flow on catalyst particles interlayer 9, under the acting in conjunction of the catalyst granules stored in mercury lamp 4 and catalyst particles interlayer 9, carry out oxidative degradation, processed good sewage flow into reactor 3 bottom through filtering catalyst particles interlayer 9, flow in filter 6 and again filters, flow out after being finally disposed through secondary delivery port 10 through delivery port 2.Wherein, catalyst particles interlayer 9 specifically can adopt the nets such as stainless steel cloth, the layer structure made through coated catalysts particle.
Embodiment 2
As shown in Figure 3: a kind of sewage disposal system, it comprises top and is provided with the reactor 3 that water inlet 1 and bottom are provided with delivery port 2, and mercury lamp 4, Fibre Optical Sensor 5, filter 6, tank 13, pump 14, control unit 7 and display button unit 8; Its reactor 3 inside has additional equally distributed three layers of catalyst particles interlayer 9; Mercury lamp 4 is located between two adjacent catalyst particles interlayers 9, and mercury lamp 4 is connected with control unit 7; Fibre Optical Sensor 5 is located at water inlet 1 place and delivery port 2 place of reactor 3 inside respectively; Fibre Optical Sensor 5 is all connected with control unit 7; Control unit 7 is connected with display button unit 8; Delivery port 2 is communicated with filter 6 with tank 13, pump 14 successively, and filter 6 also has additional secondary delivery port 10; In reactor 3, topmost also has additional plastic interlayer 11, plastic interlayer 11 is evenly distributed with hole 12; Water inlet 1 place of reactor 3 inside, also has additional level sensor 15, and this level sensor 15 is connected with control unit 7; The back with water inlet line at water inlet 1 place is provided with valve, and valve is connected with control unit 7; Filter 6 is also connected with control unit 7, and secondary delivery port 10 place in filter 6 also has additional Fibre Optical Sensor 5, and this Fibre Optical Sensor 5 is also connected with control unit 7; Its display button unit 8, is specifically provided with display screen and touch key-press screen.
Claims (9)
1. a sewage disposal system, it comprises top and is provided with the reactor (3) that water inlet (1) and bottom are provided with delivery port (2), and light source (4), it is characterized in that: it also has additional sensor (5), filter (6), control unit (7) and display button unit (8); Described reactor (3) inside has additional catalyst particles interlayer (9); Described light source (4) is located at described catalyst particles interlayer (9) top, and is connected with described control unit (7); Described sensor (5) is located at inner water inlet (1) place of described reactor (3) and delivery port (2) place respectively; Described sensor (5) is connected with described control unit (7); Described control unit (7) is connected with described display button unit (8); Described delivery port (2) is communicated with described filter (6), described filter (6) also has additional secondary delivery port (10).
2. sewage disposal system according to claim 1, is characterized in that: described catalyst particles interlayer (9) at least two-layer, and arranges a described light source (4) shared between adjacent two-layer described catalyst particles interlayer (9); Described reactor (3) interior topmost also has additional interlayer (11), described interlayer (11) is evenly distributed with hole (12).
3. sewage disposal system according to claim 1 or 2, is characterized in that: water inlet (1) place that described reactor (3) is inner, also has additional level sensor (15); Described level sensor (15) is connected with described control unit (7); The back with water inlet line at described water inlet (1) place is provided with valve, and described valve is connected with described control unit (7).
4. sewage disposal system according to claim 1 or 2, is characterized in that: described filter (6) is connected with described control unit (7); Secondary delivery port (10) place in described filter (6) also has additional sensor (5), and described sensor (5) is connected with described control unit (7).
5. sewage disposal system according to claim 3, is characterized in that: described filter (6) is connected with described control unit (7); Secondary delivery port (10) place in described filter (6) also has additional sensor (5), and described sensor (5) is connected with described control unit (7).
6. sewage disposal system according to claim 1 or 2, is characterized in that: also have additional tank (13) and pump (14) between described delivery port (2) and described filter (6) successively; Described sensor (5) is Fibre Optical Sensor; Described display button unit (8), is provided with display screen and touch key-press screen; Described light source (4) adopts mercury lamp or uviol lamp.
7. sewage disposal system according to claim 3, is characterized in that: also have additional tank (13) and pump (14) between described delivery port (2) and described filter (6) successively; Described sensor (5) is Fibre Optical Sensor; Described display button unit (8), is provided with display screen and touch key-press screen; Described light source (4) adopts mercury lamp or uviol lamp.
8. sewage disposal system according to claim 4, is characterized in that: also have additional tank (13) and pump (14) between described delivery port (2) and described filter (6) successively; Described sensor (5) is Fibre Optical Sensor; Described display button unit (8), is provided with display screen and touch key-press screen; Described light source (4) adopts mercury lamp or uviol lamp.
9. sewage disposal system according to claim 5, is characterized in that: also have additional tank (13) and pump (14) between described delivery port (2) and described filter (6) successively; Described sensor (5) is Fibre Optical Sensor; Described display button unit (8), is provided with display screen and touch key-press screen; Described light source (4) adopts mercury lamp or uviol lamp.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420768133.9U CN204298183U (en) | 2014-12-09 | 2014-12-09 | A kind of sewage disposal system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201420768133.9U CN204298183U (en) | 2014-12-09 | 2014-12-09 | A kind of sewage disposal system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN204298183U true CN204298183U (en) | 2015-04-29 |
Family
ID=53103741
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201420768133.9U Expired - Fee Related CN204298183U (en) | 2014-12-09 | 2014-12-09 | A kind of sewage disposal system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN204298183U (en) |
-
2014
- 2014-12-09 CN CN201420768133.9U patent/CN204298183U/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20150429 Termination date: 20181209 |
|
| CF01 | Termination of patent right due to non-payment of annual fee |