CN214174331U - Sewage treatment detection device - Google Patents

Abstract

The utility model discloses a sewage treatment detection device, wherein a sewage treatment system comprises a plurality of sewage treatment units with different sewage treatment functions, and the sewage treatment units are connected in sequence according to a sewage treatment process; the sewage treatment detection device comprises a positive phosphorus detector, a total nitrogen detector, a COD detector, an ORP detector, an NH3-N detector and an NO3-N detector, wherein a plurality of sewage treatment units are respectively connected with at least one of the positive phosphorus detector, the total nitrogen detector, the COD detector, the ORP detector, the NH3-N detector and the NO3-N detector. This sewage treatment detection device can realize concentrating the detection to the index of sewage treatment in-process, has both reduced fortune dimension work load, has practiced thrift the operation cost, has improved detection accuracy again, has shortened detection cycle short, can also effectively realize carrying out direct reflection to the quality of water situation to and carry out the optimal treatment to the redundant data among the sewage treatment, improved sewage treatment efficiency and processing quality.

Description

Sewage treatment detection device

Technical Field

The utility model relates to a sewage treatment technical field specifically provides a sewage treatment detection device.

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, especially when various indexes of the sewage treatment tanks are detected, a detection instrument needs to be installed in each sewage treatment tank, which on one hand causes high investment cost of the instrument, and on the other hand, the traditional detection instrument has the problems of difficult water sample detection switching, long detection time consumption, secondary pollution, incapability of timely reflecting the process water quality and the like, and even some detection indexes cannot directly reflect the water quality condition, thereby causing the bad phenomena of data redundancy, inconvenient optimization treatment, inconvenient timely evaluation of the process water quality and the like.

In view of this, the present invention is especially provided.

Disclosure of Invention

In order to overcome the defects, the utility model provides a sewage treatment detection device, its is rational in infrastructure, novel, both practiced thrift the operation cost, improved the detection accuracy nature, shortened detection cycle short, effectively realize again carrying out direct reflection to the quality of water situation to and carry out optimal treatment to the redundant data among the sewage treatment, fine improvement sewage treatment efficiency and processing quality.

The utility model discloses a solve the technical scheme that its technical problem adopted and be: a sewage treatment detection device comprises a sewage treatment system and a detection system, wherein the sewage treatment system comprises a plurality of sewage treatment units with different sewage treatment functions, and the sewage treatment units are sequentially connected according to a sewage treatment process; the sewage treatment detection device comprises a positive phosphorus detector, a total nitrogen detector, a COD detector, an ORP detector, an NH3-N detector and an NO3-N detector, wherein a plurality of sewage treatment units are respectively connected with at least one of the positive phosphorus detector, the total nitrogen detector, the COD detector, the ORP detector, the NH3-N detector and the NO3-N detector.

As a further improvement of the utility model, it is a plurality of the water outlet of the sewage treatment unit is respectively provided with a filter, and a plurality of the water outlet of the filter is respectively connected with at least one of the positive phosphorus detector, the total nitrogen detector, the COD detector, the ORP detector, the NH3-N detector and the NO3-N detector.

As a further improvement of the utility model, the number of the sewage treatment units is nine, and the sewage treatment units are respectively a grit chamber, an anoxic chamber, an anaerobic chamber, an aerobic chamber, a combined well, a secondary sedimentation tank, a lift pump room, a high-speed sedimentation tank and a disinfection tank; and the grit chamber, the anoxic chamber, the anaerobic chamber, the aerobic chamber, the combination well, the secondary sedimentation chamber, the lift pump room, the high-speed sedimentation tank and the disinfection tank are sequentially connected according to a sewage treatment process.

As a further improvement of the utility model, the water outlets of the grit chamber, the anoxic chamber, the anaerobic chamber, the aerobic chamber, the lift pump room and the high-speed sedimentation tank are respectively provided with a filter;

wherein the grit chamber is respectively connected with the positive phosphorus detector, the total nitrogen detector, the COD detector, the NH3-N detector and the NO3-N detector through the filter connected with the grit chamber;

the anoxic tank is respectively connected with the positive phosphorus detector, the total nitrogen detector, the COD detector, the ORP detector, the NH3-N detector and the NO3-N detector through the filter connected with the anoxic tank;

the anaerobic tank is respectively connected with the positive phosphorus detector, the COD detector, the ORP detector, the NH3-N detector and the NO3-N detector through the filter connected with the anaerobic tank;

the aerobic tank is respectively connected with the positive phosphorus detector, the total nitrogen detector, the COD detector, the NH3-N detector and the NO3-N detector through the filter connected with the aerobic tank;

the lift pump room is respectively connected with the positive phosphorus detector, the total nitrogen detector and the COD detector through the filter connected with the lift pump room;

the high-speed sedimentation tank is connected with the positive phosphorus detector through the filter connected with the high-speed sedimentation tank.

As a further improvement of the utility model, the grit chamber the oxygen deficiency tank the anaerobism pond the good oxygen pond the elevator pump room with the delivery port of high-speed sedimentation tank and with their matched with still respectively install a water pump between the water inlet of filter.

As a further improvement of the utility model, the filter adopts a ceramic membrane filter.

The utility model has the advantages that: sewage treatment detection device can realize concentrating the detection to the index of sewage treatment in-process, has both reduced fortune dimension work load, has practiced thrift the operation cost, has improved detection accuracy nature again, has shortened the check cycle short, especially can also effectively realize carrying out direct reflection to the quality of water situation to carry out the optimal treatment to the redundant data among the sewage treatment, fine improvement sewage treatment efficiency and processing quality.

Drawings

FIG. 1 is a schematic view of the working flow of the sewage treatment and detection device of the present invention;

fig. 2 is a schematic structural diagram of the filter of the present invention.

The following description is made with reference to the accompanying drawings:

10-a positive phosphorus detector; 11-total nitrogen detector; 12-COD detector; 13-ORP detector; 14-NH 3-N detector; 15-NO 3-N detector; 2, a filter; 21-a filtering tank; 22-ceramic filter element; 23-an exhaust port; 24-a water inlet; 25-water outlet; 26-back flushing port; 27-a sewage draining outlet; 30-a grit chamber; 31-an anoxic tank; 32-an anaerobic tank; 33-an aerobic tank; 34-a binding well; 35-secondary sedimentation tank; 36-lift pump house; 37-high speed sedimentation tank; 38-disinfection tank; 4-water pump.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and the present invention is not limited to the embodiments described in the present application.

It should be understood that the structures, ratios, sizes, etc. shown in the drawings attached to the present specification are only used for matching with the contents disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any modification of the structures, changes of the ratio relation or adjustment of the size should still fall within the scope covered by the technical contents disclosed in the present invention without affecting the function and the achievable purpose of the present invention.

Example 1:

please refer to fig. 1, which is a schematic diagram of a working process of the sewage treatment and detection device of the present invention.

The sewage treatment system comprises a plurality of sewage treatment units with different sewage treatment functions, and the sewage treatment units are sequentially connected according to a sewage treatment process; specifically, the sewage treatment detection device comprises a positive phosphorus detector 10, a total nitrogen detector 11, a COD detector 12, an ORP detector 13, an NH3-N detector 14 and an NO3-N detector 15, wherein a plurality of sewage treatment units are respectively connected with at least one of the positive phosphorus detector 10, the total nitrogen detector 11, the COD detector 12, the ORP detector 13, the NH3-N detector 14 and the NO3-N detector 15.

In this embodiment, it is preferable that a filter 2 is installed at each of the water outlets of the plurality of sewage treatment units, and each of the water outlets of the plurality of filters 2 is connected to at least one of the positive phosphorus detector 10, the total nitrogen detector 11, the COD detector 12, the ORP detector 13, the NH3-N detector 14, and the NO3-N detector 15.

Further preferably, nine sewage treatment units are provided, namely a grit chamber 30, an anoxic chamber 31, an anaerobic chamber 32, an aerobic chamber 33, a combination well 34, a secondary sedimentation chamber 35, a lift pump room 36, a high-speed sedimentation chamber 37 and a disinfection chamber 38 (all the sewage treatment units belong to treatment devices commonly used in sewage treatment processes, belong to common knowledge well known by persons skilled in the art, and therefore are not described in detail);

the grit chamber 30, the anoxic chamber 31, the anaerobic chamber 32, the aerobic chamber 33, the combination well 34, the secondary sedimentation chamber 35, the lift pump room 36, the high-speed sedimentation chamber 37 and the disinfection chamber 38 are sequentially connected according to a sewage treatment process, and the filter 2 is respectively arranged at the water outlets of the grit chamber 30, the anoxic chamber 31, the anaerobic chamber 32, the aerobic chamber 33, the lift pump room 36 and the high-speed sedimentation chamber 37;

wherein the grit chamber 30 is connected to the positive phosphorus detector 10, the total nitrogen detector 11, the COD detector 12, the NH3-N detector 14, and the NO3-N detector 15 through the filter 2 connected thereto, respectively;

the anoxic tank 31 is connected with the positive phosphorus detector 10, the total nitrogen detector 11, the COD detector 12, the ORP detector 13, the NH3-N detector 14 and the NO3-N detector 15 through the filter 2 connected thereto, respectively;

the anaerobic tank 32 is connected to the positive phosphorus detector 10, the COD detector 12, the ORP detector 13, the NH3-N detector 14 and the NO3-N detector 15 through the filter 2 connected thereto, respectively;

the aerobic tank 33 is connected with the positive phosphorus detector 10, the total nitrogen detector 11, the COD detector 12, the NH3-N detector 14 and the NO3-N detector 15 through the filter 2 connected with the aerobic tank respectively;

the lift pump room 36 is connected with the positive phosphorus detector 10, the total nitrogen detector 11 and the COD detector 12 through the filter 2 connected with the lift pump room;

the high-speed sedimentation tank 37 is connected to the positive phosphorus detector 10 through the filter 2 connected thereto.

Further preferably, a water pump 4 is respectively arranged between the water outlets of the grit chamber 30, the anoxic chamber 31, the anaerobic chamber 32, the aerobic chamber 33, the lift pump room 36 and the high-speed sedimentation tank 37 and the water inlet of the filter 2 matched with the water outlets.

The filter 2 is a ceramic membrane filter, and specifically comprises: as shown in the attached drawing 2, the ceramic membrane filter is provided with a filter tank 21, a ceramic filter element 22 (with the model of MW-1C) arranged in the filter tank 21, and a water inlet 24, a water outlet 25, an exhaust port 23, a back flush port 26 and a sewage outlet 27 which are respectively formed on the outer wall of the filter tank 21, wherein the water outlet 25 is connected and communicated with the water inlet of the detector, and the water inlet 24, the back flush port 26 and the sewage outlet 27 are respectively connected and communicated with the ceramic filter element 22. Namely, the working principle of the ceramic membrane filter is as follows: sewage flowing out of the sewage treatment unit enters the ceramic filter core 22 through the water inlet 24, water filtered by the ceramic filter core 22 flows out of the water outlet 25 and enters a detector for water index detection; after the operation for a period of time, the backwashing water is introduced into the ceramic filter core 22 through the backwashing port 26, the sludge trapped in the ceramic filter core 22 is backwashed, the flushed sludge is discharged from the sewage outlet 27, or the backwashing gas is blown into the ceramic filter core 22 through the backwashing port 26, the flushed sludge is discharged from the sewage outlet 27, and the gas is discharged from the gas outlet 23.

To sum up, sewage treatment detection device can realize concentrating the detection to the index of sewage treatment in-process, has both reduced fortune dimension work load, has practiced thrift the operation cost, has improved again and has detected the accuracy nature, has shortened detection cycle short, especially can also effectively realize carrying out direct reflection to the quality of water situation to carry out the optimal treatment to the redundant data among the sewage treatment, fine improvement sewage treatment efficiency and processing quality.

The above description is only a preferred embodiment of the present invention, but not intended to limit the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as within the protection scope of the present invention.

Claims (3)

1. A sewage treatment detection device comprises a grit chamber (30), an anoxic chamber (31), an anaerobic chamber (32), an aerobic chamber (33), a combination well (34), a secondary sedimentation chamber (35), a lift pump room (36), a high-speed sedimentation tank (37) and a disinfection tank (38) which are connected in sequence according to a sewage treatment process; the method is characterized in that: the sewage treatment detection device comprises a positive phosphorus detector (10), a total nitrogen detector (11), a COD detector (12), an ORP detector (13), an NH3-N detector (14) and an NO3-N detector (15), wherein a filter (2) is respectively arranged at the water outlet of the grit chamber (30), the anoxic chamber (31), the anaerobic chamber (32), the aerobic chamber (33), the lift pump room (36) and the high-speed sedimentation tank (37), and the grit chamber (30) is respectively connected with the positive phosphorus detector (10), the total nitrogen detector (11), the COD detector (12), the NH3-N detector (14) and the NO3-N detector (15) through the filter (2) connected with the grit chamber;

the anoxic tank (31) is respectively connected with the positive phosphorus detector (10), the total nitrogen detector (11), the COD detector (12), the ORP detector (13), the NH3-N detector (14) and the NO3-N detector (15) through the filter (2) connected with the anoxic tank;

the anaerobic tank (32) is respectively connected with the orthophosphoric detector (10), the COD detector (12), the ORP detector (13), the NH3-N detector (14) and the NO3-N detector (15) through the filter (2) connected with the anaerobic tank;

the aerobic tank (33) is respectively connected with the positive phosphorus detector (10), the total nitrogen detector (11), the COD detector (12), the NH3-N detector (14) and the NO3-N detector (15) through the filter (2) connected with the aerobic tank;

the lift pump room (36) is respectively connected with the positive phosphorus detector (10), the total nitrogen detector (11) and the COD detector (12) through the filter (2) connected with the lift pump room;

the high-speed sedimentation tank (37) is connected with the positive phosphorus detector (10) through the filter (2) connected with the high-speed sedimentation tank.

2. The wastewater treatment detection device according to claim 1, wherein: a water pump (4) is respectively arranged between the water outlet of the grit chamber (30), the anoxic chamber (31), the anaerobic chamber (32), the aerobic chamber (33), the lift pump room (36) and the high-speed sedimentation tank (37) and the water inlet of the filter (2) matched with the water outlet and the high-speed sedimentation tank.

3. The wastewater treatment detection device according to claim 1, wherein: the filter (2) is a ceramic membrane filter.

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