CN215855649U - Microbial treatment device for organic wastewater - Google Patents

Abstract

The utility model discloses a microbial treatment device for organic wastewater, which comprises a base, a device shell, a primary treatment assembly, a microbial treatment assembly and a clear water assembly, wherein the device shell is arranged above the base, the device shell is arranged in a hollow cavity, the primary treatment assembly is arranged in the device shell, the primary treatment assembly comprises a filter cavity, a filter grid, a regulating cavity, a phosphorus removing agent storage box, a stirring motor and a stirring rod, the filter cavity is arranged in the device shell, the filter grid is arranged in the filter cavity, the regulating cavity is arranged in the device shell and is arranged on one side of the filter cavity, the regulating cavity is connected with the filter cavity, and the phosphorus removing agent storage box is arranged on one side of the device shell. The utility model belongs to the technical field of sewage treatment, and particularly provides a microbial treatment device for organic wastewater, which has the advantages of high practicability, small occupied area, capital investment cost saving, high automation degree, simplicity in operation, excellent phosphorus removal effect, reasonable design and stability in operation.

Description

Microbial treatment device for organic wastewater

Technical Field

The utility model belongs to the technical field of sewage treatment, and particularly relates to a microbial treatment device for organic wastewater.

Background

Waste water is the general term of discharged water and runoff rainwater in the resident activity process, and it includes domestic sewage, industrial waste water and other useless water such as the runoff income drainage canal of first rain, generally indicates not utilizing or does not utilize the water of value, and wherein when organic waste water directly discharges to external environment, can cause very big destruction to the environment, needs to use microbial treatment device to handle it, adsorbs the heavy metal material in the waste water with the microorganism. However, in practical use, there are still many disadvantages, such as many kinds of microorganisms, aerobic and anaerobic, and a single treatment method cannot effectively utilize microorganisms to treat sewage, and the treatment effect is not good. Therefore, a new microbial treatment device for organic wastewater is urgently needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the existing problems, the utility model provides the microbial treatment device for the organic wastewater, which has the advantages of high practicability, small occupied area, capital investment cost saving, high automation degree, simple operation, excellent dephosphorization effect, reasonable design and stable operation.

The technical scheme adopted by the utility model is as follows: the utility model relates to a microbial treatment device for organic wastewater, which comprises a base, a device shell, a primary treatment component, a microbial treatment component and a clear water component, wherein the device shell is arranged above the base and is arranged in a hollow cavity, the primary treatment component is arranged in the device shell and comprises a filter cavity, a filter grid, a regulating cavity, a phosphorus removing agent storage box, a stirring motor and a stirring rod, the filter cavity is arranged in the device shell, the filter grid is arranged in the filter cavity, the regulating cavity is arranged in the device shell and is arranged on one side of the filter cavity, the regulating cavity is connected with the filter cavity, the phosphorus removing agent storage box is arranged on one side of the device shell and is connected with the regulating cavity, the stirring motor is rotatably arranged in the base and is arranged below the center of the regulating cavity, the stirring rod is rotatably arranged in the regulating cavity, and the stirring rod is connected with the output end of the stirring motor, the microorganism treatment component is arranged in the device shell and is arranged on one side of the primary treatment component, the microorganism treatment component comprises an anaerobic cavity, a lifting water pump, an anoxic cavity, an anoxic biomembrane reactor, an anaerobic biomembrane reactor, an aerobic cavity, an aerobic biomembrane reactor and an oxygenation pump, the anaerobic cavity is arranged in the device shell and is arranged on one side of the filter cavity, the anaerobic biomembrane reactor is arranged in the anaerobic cavity, the lifting water pump is arranged on one side of the anaerobic cavity, the input end of the lifting water pump is connected with the regulating cavity, the output end of the lifting water pump is connected with the anaerobic cavity, the anoxic cavity is arranged on one side of the anaerobic cavity and is connected with the anaerobic cavity, the anoxic biomembrane reactor is arranged in the anoxic cavity, the aerobic cavity is arranged on one side of the anoxic cavity and is connected with the anoxic cavity, the aerobic biomembrane reactor is arranged in the aerobic cavity, and the oxygenation pump is arranged on one side of the device shell, the output and the good oxygen chamber of oxygenation pump are connected, the clear water subassembly is located in the device casing and is located microbial treatment subassembly one side, the clear water subassembly includes sedimentation tank, silt extractor, clear water chamber and ultraviolet ray disinfection lamp, the sedimentation tank is located in the device casing and is located regulation chamber one side, sedimentation tank lower extreme one side is located to the silt extractor, the input and the sedimentation tank wall connection of silt extractor, the output link up device casing lateral wall of silt extractor, sedimentation tank one side is located to the clear water chamber, clear water chamber roof below is located to the ultraviolet ray disinfection lamp.

Furthermore, the output end of the oxygenation pump is provided with an oxygenation head, the oxygenation head is arranged in the aerobic cavity, and the oxygenation head is convenient for pumping oxygen into the aerobic cavity.

Further, device casing one side is equipped with the inlet tube, the inlet tube is located one side that the regulation chamber was kept away from to the filter grid, inlet tube one end link up the device casing lateral wall and is connected with the filter chamber, and the inlet tube is convenient for connect the pipeline of discharging sewage.

Furthermore, a drain pipe is arranged on one side of the device shell, one end of the drain pipe penetrates through the side wall of the device shell and is connected with the clear water cavity, and the drain pipe is convenient for discharging the treated clear water.

Furthermore, be equipped with between good oxygen chamber and the sedimentation tank and be connected the water pipe, connect the water pipe both ends and be connected with good oxygen chamber and sedimentation tank respectively, the sewage of good oxygen intracavity flows to the sedimentation tank in through connecting the water pipe.

Further, the base below is equipped with the removal gyro wheel, the base diapire both ends are located to the removal gyro wheel symmetry, and the removal gyro wheel is convenient for drive the base and removes.

Further, the device casing lateral wall is equipped with the touch-control screen, device casing one side is equipped with the controller, the base top is located to the controller, the controller respectively with touch-control screen, agitator motor, promote water pump, oxygenation pump, silt extractor, ultraviolet ray disinfection lamp electric connection.

The utility model with the structure has the following beneficial effects: this scheme organic waste water's microbial treatment, the preliminary treatment subassembly is handled the large granule impurity in the sewage, is the dephosphorization to sewage and handles, and the microbial treatment subassembly utilizes the pollutant in the microbial treatment sewage, and the disinfection of disinfecting is disinfected to silt and water in the clear water subassembly processing sewage, and the practicality is high, and area is little, save capital construction investment cost, and degree of automation is high, easy operation, and the dephosphorization effect is excellent, reasonable in design, operation stability.

Drawings

FIG. 1 is a schematic view of the structure of an apparatus for treating organic wastewater with microorganisms according to the present invention.

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings: 1. a pedestal, 2, the device casing, 3, the preliminary treatment subassembly, 4, the microbiological treatment subassembly, 5, the clear water subassembly, 6, the filter chamber, 7, the filtration grid, 8, adjust the chamber, 9, the dephosphorization agent storage box, 10, agitator motor, 11, the puddler, 12, the anaerobism chamber, 13, the anaerobism biofilm reactor, 14, the lift pump, 15, the oxygen deficiency chamber, 16, the oxygen deficiency biofilm reactor, 17, the good oxygen chamber, 18, the good oxygen biofilm reactor, 19, the oxygenation pump, 20, the sedimentation tank, 21, silt extractor, 22, the clear water chamber, 23, ultraviolet ray disinfection lamp, 24, oxygenation head, 25, the inlet tube, 26, the drain pipe, 27, connecting pipe, 28, removal gyro wheel, 29, the touch screen, 30, the controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the microbial treatment device for organic wastewater of the present invention comprises a base 1, a device housing 2, a primary treatment assembly 3, a microbial treatment assembly 4 and a clean water assembly 5, wherein the device housing 2 is disposed above the base 1, the device housing 2 is a hollow cavity, the primary treatment assembly 3 is disposed in the device housing 2, the primary treatment assembly 3 comprises a filter chamber 6, a filter grid 7, a regulation chamber 8, a phosphorus removing agent storage box 9, a stirring motor 10 and a stirring rod 11, the filter chamber 6 is disposed in the device housing 2, the filter grid 7 is disposed in the filter chamber 6, the regulation chamber 8 is disposed in the device housing 2 and is disposed at one side of the filter chamber 6, the regulation chamber 8 is connected with the filter chamber 6, the phosphorus removing agent storage box 9 is disposed at one side of the device housing 2, the phosphorus removing agent storage box 9 is connected with the regulation chamber 8, the stirring motor 10 is rotatably disposed in the base 1 and is disposed below the center of the regulation chamber 8, the stirring rod 11 is rotatably arranged in the adjusting cavity 8, the stirring rod 11 is connected with the output end of a stirring motor 10, the microorganism processing component 4 is arranged in the device shell 2 and is arranged on one side of the primary processing component 3, the microorganism processing component 4 comprises an anaerobic cavity 12, an anaerobic biofilm reactor 13, a lifting water pump 14, an anoxic cavity 15, an anoxic biofilm reactor 16, an aerobic cavity 17, an aerobic biofilm reactor 18 and an oxygenation pump 19, the anaerobic cavity 12 is arranged in the device shell 2 and is arranged on one side of the filter cavity 6, the anaerobic biofilm reactor 13 is arranged in the anaerobic cavity 12, the lifting water pump 14 is arranged on one side of the anaerobic cavity 12, the input end of the lifting water pump 14 is connected with the adjusting cavity 8, the output end of the lifting water pump 14 is connected with the anaerobic cavity 12, the anoxic cavity 15 is arranged on one side of the anaerobic cavity 12 and is connected with the anaerobic cavity 12, the anoxic biofilm reactor 16 is arranged in the anoxic cavity 15, the aerobic cavity 17 is arranged at one side of the anoxic cavity 15 and is connected with the anoxic cavity 15, the aerobic biofilm reactor 18 is arranged in the aerobic cavity 17, the oxygenation pump 19 is arranged on one side of the device shell 2, the output end of the oxygenation pump 19 is connected with the aerobic cavity 17, the clear water component 5 is arranged in the device shell 2 and at one side of the microorganism processing component 4, the clear water component 5 comprises a sedimentation tank 20, a sludge extractor 21, a clear water cavity 22 and an ultraviolet disinfection lamp 23, the sedimentation tank 20 is arranged in the device shell 2 and at one side of the adjusting cavity 8, the sludge extractor 21 is arranged at one side of the lower end of the sedimentation tank 20, the input end of the sludge extractor 21 is connected with the bottom wall of the sedimentation tank 20, the output end of the sludge extractor 21 penetrates through the side wall of the device shell 2, the clear water cavity 22 is arranged on one side of the sedimentation tank 20, and the ultraviolet disinfection lamp 23 is arranged below the top wall of the clear water cavity 22.

Wherein, the output end of the oxygenation pump 19 is provided with an oxygenation head 24, the oxygenation head 24 is arranged in an aerobic cavity 17, one side of the device shell 2 is provided with a water inlet pipe 25, the water inlet pipe 25 is arranged on one side of the filter grid 7 far away from the adjusting cavity 8, one end of the water inlet pipe 25 penetrates through the side wall of the device shell 2 and is connected with the filter cavity 6, one side of the device shell 2 is provided with a water outlet pipe 26, one end of the water outlet pipe 26 penetrates through the side wall of the device shell 2 and is connected with a clear water cavity 22, a connecting water pipe 27 is arranged between the aerobic cavity 17 and the sedimentation tank 20, two ends of the connecting water pipe 27 are respectively connected with the aerobic cavity 17 and the sedimentation tank 20, a movable roller 28 is arranged below the base 1, the movable roller 28 is symmetrically arranged at two ends of the bottom wall of the base 1, the side wall of the device shell 2 is provided with a touch screen 29, one side of the device shell 2 is provided with a controller 30, the controller 30 is arranged above the base 1, the controller 30 is electrically connected with the touch screen 29, the stirring motor 10, the lifting water pump 14, the oxygenation pump 19, the sludge extractor 21 and the ultraviolet disinfection lamp 23 respectively.

When the device is used specifically, the water inlet pipe 25 is connected with an external sewage pipe, then a sewage treatment instruction is sent through the touch screen 29, the controller controls the stirring motor 10, the lifting water pump 14, the oxygenation pump 19, the sludge extractor 21 and the ultraviolet disinfection lamp 23 to be started, sewage flows into the filter cavity 6 from the water inlet pipe 25, the filter grids 7 in the filter cavity 6 intercept large-particle impurities in the sewage, the filtered sewage flows into the regulation cavity 8, the dephosphorizing agent in the dephosphorizing agent storage box 9 is mixed with the sewage in the regulation cavity 8, the stirring motor 10 drives the stirring rod 11 to rotate, so that the dephosphorizing agent and the sewage in the regulation cavity 8 are uniformly mixed, the dephosphorization efficiency is improved, the lifting water pump 14 pumps the sewage after dephosphorization in the regulation cavity 8 into the anaerobic cavity 12, anaerobic microorganisms in the anaerobic biofilm reactor 13 adsorb and degrade organic matters, the anaerobic sewage after being treated by the anaerobic microorganisms flows into the anoxic cavity 15, anoxic microorganisms in the anoxic biofilm reactor 16 decompose macromolecular organic particles into micromolecular organic particles, biodegradability of wastewater can be improved, sewage treated by the anoxic microorganisms flows into the aerobic cavity 17, oxygen is added into the aerobic cavity 17 by the oxygenation pump 19, the aerobic microorganisms in the aerobic biofilm reactor 18 decompose organic substances into inorganic substances, pollutants in the sewage are removed, the sewage treated by the aerobic microorganisms flows into the sedimentation tank 20 through the connecting water pipe 27, the sewage is precipitated in the sedimentation tank 20, sludge is precipitated at the bottom of the sedimentation tank 20 and is extracted by the sludge extractor 21, water separated from the sludge flows into the clear water cavity 22, the ultraviolet disinfection lamp 23 conducts sterilization and disinfection treatment on the water in the clear water cavity 22, the sterilized clear water flows out of the water outlet pipe, practicability is high, floor area is small, capital investment cost is saved, automation degree is high, The method is simple to operate, excellent in dephosphorization effect, reasonable in design and stable in operation.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A microbial treatment device for organic wastewater is characterized in that: comprises a base, a device shell, a primary treatment component, a microorganism treatment component and a clear water component, wherein the device shell is arranged above the base, the device shell is arranged in a hollow cavity, the primary treatment component is arranged in the device shell and comprises a filter cavity, a filter grid, an adjusting cavity, a phosphorus removing agent storage box, a stirring motor and a stirring rod, the filter cavity is arranged in the device shell, the filter grid is arranged in the filter cavity, the adjusting cavity is arranged in the device shell and is arranged on one side of the filter cavity, the adjusting cavity is connected with the filter cavity, the phosphorus removing agent storage box is arranged on one side of the device shell, the phosphorus removing agent storage box is connected with the adjusting cavity, the stirring motor is rotatably arranged in the base and is arranged below the center of the adjusting cavity, the stirring rod is rotatably arranged in the adjusting cavity, the stirring rod is connected with the output end of the stirring motor, the microorganism treatment component is arranged in the device shell and is arranged on one side of the primary treatment component, the microorganism treatment component comprises an anaerobic cavity, a lifting water pump, an anoxic cavity, an anoxic biomembrane reactor, an anaerobic biomembrane reactor, an aerobic cavity, an aerobic biomembrane reactor and an oxygenation pump, wherein the anaerobic cavity is arranged in the device shell and is arranged on one side of the filter cavity, the anaerobic biomembrane reactor is arranged in the anaerobic cavity, the lifting water pump is arranged on one side of the anaerobic cavity, the input end of the lifting water pump is connected with the regulating cavity, the output end of the lifting water pump is connected with the anaerobic cavity, the anoxic cavity is arranged on one side of the anaerobic cavity and is connected with the anaerobic cavity, the anoxic biomembrane reactor is arranged in the anoxic cavity, the aerobic biomembrane reactor is arranged in the aerobic cavity, the oxygenation pump is arranged on one side of the device shell, the output end of the oxygenation pump is connected with the aerobic cavity, the clear water component is arranged in the device shell and is arranged on one side of the microorganism treatment component, clear water subassembly includes sedimentation tank, silt extractor, clear water chamber and ultraviolet ray disinfection lamp, the sedimentation tank is located in the device casing and is located regulation chamber one side, sedimentation tank lower extreme one side is located to the silt extractor, the input and the sedimentation tank wall connection of silt extractor, the output link up device casing lateral wall of silt extractor, sedimentation tank one side is located to the clear water chamber, clear water chamber roof below is located to the ultraviolet ray disinfection lamp.

2. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: the output end of the oxygenation pump is provided with an oxygenation head, and the oxygenation head is arranged in the aerobic cavity.

3. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: the device is characterized in that a water inlet pipe is arranged on one side of the device shell, the water inlet pipe is arranged on one side, away from the adjusting cavity, of the filter grid, and one end of the water inlet pipe penetrates through the side wall of the device shell and is connected with the filter cavity.

4. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: a drain pipe is arranged on one side of the device shell, and one end of the drain pipe penetrates through the side wall of the device shell and is connected with the clear water cavity.

5. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: a connecting water pipe is arranged between the aerobic cavity and the sedimentation tank, and two ends of the connecting water pipe are respectively connected with the aerobic cavity and the sedimentation tank.

6. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: the base below is equipped with removes the gyro wheel, remove the gyro wheel symmetry and locate base diapire both ends.

7. The apparatus for the microbiological treatment of organic waste water according to claim 1, wherein: the device casing lateral wall is equipped with the touch-control screen, device casing one side is equipped with the controller, the base top is located to the controller, the controller respectively with touch-control screen, agitator motor, promote water pump, oxygenation pump, silt extractor, ultraviolet ray disinfection lamp electric connection.

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