CN216972116U - Online instrument main station of biological pond - Google Patents

Abstract

The utility model provides an online instrument main station of a biological pond, wherein each independent unit biological pond is internally provided with a sampling pump, a sampling branch pipeline communicated between each sampling pump and a cement separating device is provided with a sampling electric control valve, the end part of each branch pipeline is connected with a sampling main pipeline, the sampling main pipeline is connected with the cement separating device, a back washing device is arranged on the sampling main pipeline, the sampling main pipeline is connected with the cement separating device, the cement separating device is connected with a detection instrument, a controller is respectively connected with the sampling pump, the sampling electric control valve, the back washing device, the back washing valve, the cement separating device and the detection instrument, the controller controls all parts to work, and the controller controls and is connected with a display. The utility model has the advantages that the water quality sample and the sludge sample can be quickly sampled from the biological tank, the water quality sample and the sludge sample are extracted by the cement separation device and are monitored by corresponding instruments, the corresponding instruments do not need to be arranged in each tank body, a large amount of cost is saved, and the accuracy of data is ensured.

Description

Online instrument main station of biological pond

Technical Field

The utility model relates to the field of sewage treatment, in particular to an online instrument master station of a biological pool.

Background

When the sewage treatment plant carries out sewage treatment, all indexes in the sewage treatment tank need to be detected all the time, so that parameters such as sludge concentration, medicament adding amount and the like can be effectively adjusted according to the indexes in the sewage treatment tank in real time, and therefore energy conservation and emission reduction of the sewage treatment are achieved. However, in the existing sewage treatment technology, the means of detecting each index in the sewage treatment tank is mainly adopted for monitoring instruments and monitoring by human sampling, the monitoring instruments are required to be installed in each unit sewage treatment tank for monitoring, and the mixing of cement in the biological tank not only influences the monitoring accuracy, so that the accurate value cannot be obtained and the water quality condition cannot be directly reflected, but also damages the instruments to reduce the practical service life of the instruments, and greatly increases the instrument investment cost. The problems of long detection time consumption, secondary pollution, incapability of reflecting the process water quality in time and the like exist in manual sampling monitoring.

At present, a device which can intuitively, accurately and timely reflect the water quality conditions in each treatment tank is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects in the prior art and provides an online instrument main station of a biological pool.

The purpose of the utility model is realized by the following technical scheme.

A biological pool on-line instrument master station comprises a sampling system, a back washing system, a filtering system, a data detection system, a control system and a data processing system,

the sampling system comprises a sampling pump and a sampling electric control valve;

the back washing system comprises a back washing device and a back washing valve;

the filtering system comprises a cement separating device;

the data monitoring system comprises a detection instrument;

the control system and the data processing system comprise a controller and a display;

each independent unit biological pond is internally provided with a sampling pump, a sampling branch pipeline communicated between each sampling pump and the cement separation device is provided with a sampling electric control valve, the end part of each branch pipeline is connected with a sampling main pipeline, the sampling main pipeline is connected with the cement separation device, the backwashing device is connected with the sampling main pipeline through a backwashing valve, the sampling main pipeline is connected with the cement separation device, the cement separation device is connected with a detection instrument, a controller is respectively connected with the sampling pump, the sampling electric control valve, the backwashing device, the backwashing valve, the cement separation device and the detection instrument, the controller controls the work of all the components, and the controller controls the connection with a display.

And a biological membrane is arranged in the cement separation device.

The back washing device is a compressed air back washing device.

The detection instrument is a nitrogen content tester.

The cloud data management system comprises an upper computer, and the upper computer is in data connection with the controller.

The utility model has the beneficial effects that: this scheme can be fast from taking a sample in the biological pond, draws quality of water sample and mud sample through cement separator and monitors by corresponding instrument again, is different from current instrument monitoring mode and not only need not to set up corresponding instrument in every biological pond, saves a large amount of costs, can also separate the sample and adopt corresponding instrument to go on, guarantees the accuracy of data. Data monitored by the instrument can be clearly and visually projected in a display and an upper computer, so that real-time monitoring is convenient to maintain, and manpower and material resources are saved.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a flow chart of the use of the present invention;

in the figure: 1, a sampling pump; 2, sampling an electric control valve; 3, a backwashing device; 4, backwashing the valve; 5, a cement separation device; 6, detecting an instrument; 7, a controller; 8, a display; and 8, an upper computer.

Detailed Description

The technical solution of the present invention is further illustrated by the following specific examples.

Examples

A biological pool on-line instrument master station comprises a sampling system, a back washing system, a filtering system, a data detection system, a control system and a data processing system,

the sampling system comprises a sampling pump 1 and a sampling electric control valve 2;

the back washing system comprises a back washing device 3 and a back washing valve 4;

the filtering system comprises a cement separating device 5;

the data monitoring system comprises a detection instrument 6;

the control system and the data processing system comprise a controller 7 and a display 8;

as shown in figure 1, a sampling pump 1 is arranged in each independent unit biological pond, a sampling branch pipeline communicated between each sampling pump 1 and a cement separation device 5 is provided with a sampling electric control valve 2, the end part of each branch pipeline is connected with a sampling main pipeline, the sampling main pipeline is connected with the cement separation device 5, a back washing device 3 is connected with the sampling main pipeline through a back washing valve 4, the sampling main pipeline is connected with the cement separation device 5, the cement separation device 5 is connected with a detection instrument 6, a controller 7 is respectively connected with the sampling pump 1, the sampling electric control valve 2, the back washing device 3, the back washing valve 4, the cement separation device 5 and the detection instrument 6, the controller 7 controls all the parts to work, and the controller 7 controls and is connected with a display 8.

A biological membrane is arranged in the cement separating device 5.

The back washing device 3 is a compressed air back washing device 3.

The detecting instrument 6 is a nitrogen content measuring instrument.

The cloud data management system comprises an upper computer 9, and the upper computer 9 is in data connection with the controller 7.

As shown in FIG. 2, a method for using a biological pond online meter central station comprises the following steps:

s1, starting the device, and displaying the data information in each unit biological pond by the display 8;

s2, operating the controller 7 to control the sampling pump 1 and the sampling electric control valve 2 arranged in the designated unit biological pool to collect the cement mixed sample to the cement separation device 5;

s3, opening the back washing valve 4 after the sample collection is finished, and washing the sample introduction pipeline by using the back washing device 3;

s4, respectively conveying the separated water quality sample and sludge sample into corresponding detection instruments 6 for detection;

s5 the detecting instrument 6 feeds back the detected data to the controller 7, and the detected data is transmitted to the display 8 and the upper computer 9 by the controller 7.

Preferably, a biological membrane is arranged in the cement separation device 5, and a water quality sample and a sludge sample in the sample are separated through the biological membrane, so that the time required by precipitation is saved, and the monitoring efficiency is accelerated. The detecting instrument 6 is a nitrogen content measuring instrument for detecting the total nitrogen content in the biological pool.

While one embodiment of the present invention has been described in detail, the description is only a preferred embodiment of the present invention and should not be taken as limiting the scope of the utility model. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (5)

1. The utility model provides a biological pond online instrument bus station which characterized in that: comprises a sampling system, a back flushing system, a filtering system, a data detection system, a control system and a data processing system,

the sampling system comprises a sampling pump and a sampling electric control valve;

the back washing system comprises a back washing device and a back washing valve;

the filtering system comprises a cement separating device;

the data monitoring system comprises a detection instrument;

the control system and the data processing system comprise a controller and a display;

each independent unit biological pond is internally provided with a sampling pump, a sampling branch pipeline communicated between each sampling pump and the cement separation device is provided with a sampling electric control valve, the end part of each branch pipeline is connected with a sampling main pipeline, the sampling main pipeline is connected with the cement separation device, the backwashing device is connected with the sampling main pipeline through a backwashing valve, the sampling main pipeline is connected with the cement separation device, the cement separation device is connected with a detection instrument, a controller is respectively connected with the sampling pump, the sampling electric control valve, the backwashing device, the backwashing valve, the cement separation device and the detection instrument, the controller controls the work of all the components, and the controller controls the connection with a display.

2. The biological pond online instrument station according to claim 1, wherein: and a biological membrane is arranged in the cement separation device.

3. The biological pond online instrument station according to claim 1, wherein: the back washing device is a compressed air back washing device.

4. The biological pond online instrument station according to claim 1, wherein: the detection instrument is a nitrogen content tester.

5. An online biological pond meter station according to any one of claims 1 to 4, wherein: the cloud data management system comprises an upper computer, and the upper computer is in data connection with the controller.

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