CN205643158U - Multiplying power method sewage colourity apparatus - Google Patents
Multiplying power method sewage colourity apparatus Download PDFInfo
- Publication number
- CN205643158U CN205643158U CN201620394696.5U CN201620394696U CN205643158U CN 205643158 U CN205643158 U CN 205643158U CN 201620394696 U CN201620394696 U CN 201620394696U CN 205643158 U CN205643158 U CN 205643158U
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- container
- sewage
- colorimetric
- valve
- multiplying power
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Abstract
The utility model provides a multiplying power method sewage colourity apparatus, includes distilled water container, sewage container, color comparison container and waste water container. First valve is connected with distilled water container and color comparison container respectively for control distilled water gets into the color comparison container, the second valve is connected with sewage container and color comparison container respectively for control sewage gets into the color comparison container, the third valve is connected with the color comparison container for control liquid is discharged from the color comparison container. The detector includes light source and optical receiver, sets up in color comparison container periphery. The utility model discloses the automation of sewage colourity survey can be realized, simple structure, convenient operation to the apparatus. Under the assistance of instrument, operating personnel's intensity of labour is showing and is reducing, and the convenience of operation is showing and improves, and the accuracy and the reliability that detect data are being shown to be improved.
Description
Technical field
This utility model relates to a kind of automatic detection device, particularly relates to a kind of Colority of Sewage Water analyzer, it is adaptable to times
Rate method measures the colourity of sewage, improves automatization level.
Background technology
It is an index in many sewage quality inspection criterion that multiplying power method measures Colority of Sewage Water.The method is first by acquirement
Sewage and distilled water sesquialter dilute, observe by the naked eye and than the sewage after relatively dilute transparency whether with distillation aqueous phase
When.If it is relatively low to compare sewage transparency, then wastewater reuse distilled water sesquialter dilution sesquialter diluted, again by
Perusal is more suitable with distilled water than the transparency of the sewage after relatively dilute, so goes round and begins again, until naked eyes
The sewage observing dilution is suitable with distilled water, stops dilution just now, and records the multiple of dilution.
This kind of assay method not yet realizes instrumentation, is still dependent on manual operation, and the time not only operating cost is long, also by
In the subjectivity of naked eyes identification, cause operational difficulty, it is thus achieved that the accuracy of data is relatively low, it is difficult to meet detection
Need.
Utility model content
A purpose of the present utility model is to provide a kind of multiplying power method Colority of Sewage Water analyzer, uses instrument and equipment to realize
The automatization that multiplying power method Colority of Sewage Water measures, reduces labor intensity, improves the convenience of operation.
Another purpose of the present utility model is to provide a kind of multiplying power method Colority of Sewage Water analyzer, uses instrument and equipment real
The automatization that existing multiplying power method Colority of Sewage Water measures, improves the accuracy of data, reliability and digitized.
Further object of the present utility model is to provide a kind of multiplying power method Colority of Sewage Water analyzer, uses instrument and equipment real
The automatization that existing multiplying power method Colority of Sewage Water measures, obtains collecting and Remote Decision-making of detection data, beneficially data in time.
A kind of multiplying power method Colority of Sewage Water analyzer that this utility model provides, including:
Distilled water container, it is used for holding distilled water;
Waste water container, it is used for holding sewage to be detected;
Colorimetric container, accommodates colorimetric liquid in it;
First valve, it is connected with distilled water container and colorimetric container respectively, is used for controlling distilled water and enters colorimetric container;
Second valve, it is connected with waste water container and colorimetric container respectively, is used for controlling sewage and enters colorimetric container;
3rd valve, it is connected with colorimetric container, is used for controlling liquid and discharges from colorimetric container;
Detector, it includes light source and optical receiver, is arranged at colorimetric container periphery;
Enumerator, it is connected with the first valve, records the opening/closing frequency of the first valve.
The multiplying power method Colority of Sewage Water analyzer that this utility model provides, also includes waste water container, and it is connected with the 3rd valve,
The waste water discharged from colorimetric container after receiving colorimetric.
The multiplying power method Colority of Sewage Water analyzer that this utility model provides, enumerator and detector are the most respectively with communication module the most even
Connecing, the information of enumerator and detector is sent in remote calculator by communication module by various communications protocol, with reality
The real-time display of remote terminal now, it is simple to data obtain in time and collect, and the decision-making of waste water control.
The multiplying power method Colority of Sewage Water analyzer that this utility model provides, also includes the pump housing and controller, controller and the pump housing
Connect, the pump housing is connected to colorimetric container, coordinates with the first valve, the second valve and the 3rd valve respectively, by sewage with
Distilled water is sent into colorimetric container or discharges from colorimetric container.
This utility model multiplying power method Colority of Sewage Water analyzer, can realize Colority of Sewage Water measure automatization, simple in construction,
Easy to operate.Under the assistance of instrument, the labor intensity of operator significantly reduces, and the convenience of operation significantly improves,
Accuracy and the reliability of detection data significantly improve.Under the assistance of communication module, can be by digitized mensuration
Data check measurement data and the ruuning situation of instrument whenever and wherever possible by network, it is achieved that remote real-time monitoring, practical
Property is strong.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of this utility model multiplying power method Colority of Sewage Water analyzer one embodiment;
Fig. 2 is the schematic diagram of this utility model multiplying power method Colority of Sewage Water another embodiment of analyzer.
Detailed description of the invention
The technical solution of the utility model is described in detail below in conjunction with accompanying drawing.This utility model embodiment is only in order to illustrate this
The technical scheme of utility model and unrestricted, although this utility model being described in detail with reference to preferred embodiment,
It will be understood by those within the art that, the technical scheme of utility model can be modified or equivalent,
Without deviating from the spirit and scope of technical solutions of the utility model, it all should be contained at claim model of the present utility model
In enclosing.
Fig. 1 is the schematic diagram of this utility model multiplying power method Colority of Sewage Water analyzer one embodiment, as it is shown in figure 1, analyzer
Including the distilled water container 100 for holding distilled water, for holding the waste water container 200 of sewage to be detected and can accommodate
The colorimetric container 400 of colorimetric liquid.First valve 510 is connected with distilled water container 100 and colorimetric container 400 respectively, and
Control the distilled water in distilled water container 100 and enter colorimetric container 400.First valve 510 is also connected with enumerator 700,
By enumerator 700, the opening/closing frequency of the first valve is carried out record, as the foundation of sewage sesquialter dilution numerical value.Second valve
Door 520 is connected with waste water container 200 and colorimetric container 400 respectively, and controls the sewage to be measured in waste water container 200 and enter
Colorimetric container 400.3rd valve 530 its be connected with colorimetric container 400, and control the distilled water in colorimetric liquid 400,
The sewage of sewage or dilution is discharged from colorimetric container.In the present embodiment, waste water container 300 is arranged at the 3rd valve 530
Exit.
Detector 600 includes light source 610 and optical receiver 620, is arranged at the periphery of colorimetric container 400.When colorimetric container
When having colorimetric liquid in 400, optical receiver 620 obtains the light from light source 610 transmission.By the information of transmitted ray
Comparison, it is judged that sewage is the need of proceeding sesquialter dilution.
The pump housing 800 is connected with controller 900 and colorimetric container 400 respectively.During mensuration, by the pump housing 800 and the first valve 510
Open so that the distilled water in distilled water container 100 enters colorimetric container 400, and device 600 detection obtains distillation after testing
The transmittance values of water, is the transparency (being also the zeroing step of instrument) of distilled water.Then, the 3rd valve is opened
530, the pump housing 800 distilled water in colorimetric container 400 is discharged.Then, the pump housing 800 is opened with the second valve 520,
Make the sewage in waste water container 200 enter colorimetric container 400, and device 600 detection obtains the light transmittance number of sewage after testing
After value, open the 3rd valve 530, the pump housing 800 after the sewage in colorimetric container 400 being discharged half, then open first
Valve 510 so that the distilled water in distilled water container 100 enters colorimetric container 400 and supplements the sewage being discharged, continues to survey
After the transmittance values of the sewage determined and obtain sesquialter dilution, open the 3rd valve 530, by the pump housing 800 by colorimetric container
After sewage in 400 discharges half, then open the first valve 510 and open so that the distilled water in distilled water container 100 enters
Enter colorimetric container 400 and supplement the sewage being discharged, continue to measure and obtain the transmittance values of the sewage of sesquialter dilution, as
This circulation, until the transmittance values of sewage reaches or close to distilled water transmittance values, and obtains according to extension rate
The measured value of Colority of Sewage Water.
In the present embodiment, controlling the controller 900 of the pump housing 800 work, the duration of runs of the foundation pump housing is to inlet and outlet
The amount of liquid of colorimetric container is controlled.Such as: the pump housing works 30 seconds, the liquid level formed in colorimetric container 400
During for 20mm, then the pump housing works 15 seconds, and liquid level is 10mm, i.e. liquid in colorimetric container 400 is discharged
Half or enter half.
Also send the information of liquid level pressure reduction to controller 900, to control the work of the pump housing 800, it is achieved colorimetric container 400
In liquid discharge half or enter half.Shown in Fig. 2, open the second valve 200, under gravity, sewage
Sewage in container 200 enters colorimetric container 400, and along with the rising of liquid level, the pressure of container bottom increases, works as pressure
When reaching pressure sensing controller 910 preset value, the second valve 200 is closed.After obtaining the transmittance values of sewage,
Open the 3rd valve 530 and drain, when liquid level drops to half, close the 3rd valve 530, open the first valve
Door 510 so that the distilled water in distilled water container 100 enters colorimetric container 400 under gravity and sewage is carried out sesquialter
Dilution, and continue to obtain the transmittance values of sewage.So circulation, until the transmittance values of sewage reaches or close
Distilled water transmittance values, and the measured value of Colority of Sewage Water is obtained according to extension rate.
Other method is and for example: utilizes light path to obtain the liquid level information in colorimetric container 400, and sends controller to
900, to control the work of body 800, it is achieved the liquid in colorimetric container 400 is discharged half or enters half.
Claims (6)
1. a multiplying power method Colority of Sewage Water analyzer, it is characterised in that including:
Distilled water container, it is used for holding distilled water;
Waste water container, it is used for holding sewage to be detected;
Colorimetric container, accommodates colorimetric liquid in it;
First valve, it is connected with described distilled water container and described colorimetric container respectively, for controlling the colorimetric container described in distilled water entrance;
Second valve, it is connected with described waste water container and described colorimetric container respectively, for controlling the colorimetric container described in sewage entrance;
3rd valve, it is connected with described colorimetric container, discharges from described colorimetric container for controlling liquid;
Detector, it includes light source and optical receiver, is arranged at described colorimetric container periphery.
Multiplying power method Colority of Sewage Water analyzer the most according to claim 1, it is characterised in that also including monolithic counter, it is connected with the second described valve, the opening/closing frequency of the second valve described in record.
Multiplying power method Colority of Sewage Water analyzer the most according to claim 2, it is characterised in that described monolithic counter is also connected with communication module, and the information of described enumerator is sent to remote calculator by various communications protocol by described communication module.
Multiplying power method Colority of Sewage Water analyzer the most according to claim 1, it is characterised in that also including waste water container, it is connected with the 3rd described valve, the waste water discharged from described colorimetric container after receiving colorimetric.
Multiplying power method Colority of Sewage Water analyzer the most according to claim 1, it is characterised in that described detector is also connected with communication module, and the information of described detector is sent to remote calculator by various communications protocol by described communication module.
Multiplying power method Colority of Sewage Water analyzer the most according to claim 1, it is characterised in that also including that the pump housing and controller, described controller are connected with the described pump housing, the described pump housing is connected to described colorimetric container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620394696.5U CN205643158U (en) | 2016-05-03 | 2016-05-03 | Multiplying power method sewage colourity apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620394696.5U CN205643158U (en) | 2016-05-03 | 2016-05-03 | Multiplying power method sewage colourity apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205643158U true CN205643158U (en) | 2016-10-12 |
Family
ID=57049003
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620394696.5U Expired - Fee Related CN205643158U (en) | 2016-05-03 | 2016-05-03 | Multiplying power method sewage colourity apparatus |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205643158U (en) |
-
2016
- 2016-05-03 CN CN201620394696.5U patent/CN205643158U/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: 20161012 Termination date: 20170503 |
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CF01 | Termination of patent right due to non-payment of annual fee |