CN204509045U

CN204509045U - A kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency

Info

Publication number: CN204509045U
Application number: CN201520093085.2U
Authority: CN
Inventors: 张德林; 张�杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2015-02-10
Filing date: 2015-02-10
Publication date: 2015-07-29
Anticipated expiration: 2025-02-10

Abstract

The utility model relates to a kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency, and the described sewage disposal device of microorganism high-level efficiency low power consuming that utilizes comprises agitated pool, the first settling tank, microorganism culturing pond, biofluid pond, the second settling tank, sterilization pool and discharge pond; Described microorganism culturing pond is communicated with the first settling tank, and described microorganism culturing pond comprises a holding tank, is multiplely contained in microorganism culturing frame in holding tank and multiple induction pipe be contained in holding tank; Described biofluid pond is communicated with described microorganism culturing pond, described biofluid pond comprises multiple reactive tank, conveying reactive tank and oxygenation unit, multiple reactive tank is for be sequentially communicated with from front to back, wherein a reactive tank is communicated with one end of oxygenation unit, the other end of described oxygenation unit is communicated with described conveying reactive tank, and described conveying reactive tank is communicated with described second settling tank.

Description

A kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency

Technical field

The utility model relates to a kind of sewage disposal device, especially relates to a kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency.

Background technology

In the prior art, the method of general sewage disposal is utilize microorganism to eliminate water pollutant to the mode that the various pollutents in water decompose, these class methods do not need to use other chemicalses, only using ammonia, nitrous acid and urea etc. as the nutrient of microorganism growth, the effect of deodorizing can be reached by the Degradation of microorganism, therefore the method comparatively environmental protection widely used.

But, the method of above-mentioned sewage disposal in actual use, but 2 comparatively significantly defects are had: first, the sewage disposal flowing property for the treatment of tank is not good enough, the inwall for the treatment of pond and the dirt of tubing system long-term adhesion accumulation can be caused, when sludgd deposition amount is larger in treating pond, sewage treatment capacity can be caused to decline.Second, microbial growth and breeding need specific temperature and oxygen level, and the structure design of general treatment tank is difficult to make microorganism growth and breeding play maximum effectiveness, says nothing of its microorganism to carry out reclaiming and again utilize, therefore cause that to decompose the effect of filtering poor.

Utility model content

Main purpose of the present utility model is for defect of the prior art, and provide a kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency, the technical solution of the utility model is:

A kind of sewage disposal device utilizing the low power consuming of microorganism high-level efficiency, it is characterized in that, the sewage disposal device of described microorganism comprises agitated pool, the first settling tank, microorganism culturing pond, biofluid pond, the second settling tank, sterilization pool and discharge pond;

Described microorganism culturing pond is communicated with the first settling tank, and described microorganism culturing pond comprises a holding tank, is multiplely contained in microorganism culturing frame in holding tank and multiple induction pipe be contained in holding tank;

Described biofluid pond is communicated with described microorganism culturing pond, described biofluid pond comprises multiple reactive tank, conveying reactive tank and oxygenation unit, multiple reactive tank is for be sequentially communicated with from front to back, wherein a reactive tank is communicated with one end of oxygenation unit, the other end of described oxygenation unit is communicated with described conveying reactive tank, and described conveying reactive tank is communicated with described second settling tank.

Preferably, described microorganism culturing frame has a support body, upper support bar, be fixedly installed on above support body and is fixedly installed on support body and the lower support bar and set up relative to upper support bar is set in implantation part outside upper support bar and lower support bar.

Preferably, described oxygenation unit comprise pump propulsion source, effect groove, multiple flusher, multiple breeding part and be located in effect bottom land end and be communicated with the through hole of conveying reactive tank.

Preferably, multiple breeding part is equipped with in described effect groove.

Preferably, be provided with flusher above described breeding part top, described flusher is that propulsion source is pumped in connection, described in pump propulsion source be contained in a reactive tank in described multiple reactive tank.

Compared with prior art, the beneficial effects of the utility model are: by the vibrational power flow of above-mentioned sewage disposal device, can improve lack in prior art to have the amount of disposing of sewage high and decompose filter effect preferably advantage.

Accompanying drawing explanation

Fig. 1 is the use schematic diagram of the first settling tank in the utility model in embodiment one and the second settling tank.

Fig. 2 is the diagrammatic cross-section in the microorganism culturing pond in the utility model in embodiment one.

Fig. 3 is the end face schematic diagram in the microorganism culturing pond in the utility model in embodiment one.

Fig. 4 is the schematic perspective view of the microorganism culturing frame in the utility model in embodiment one.

Fig. 5 is the partial cutaway schematic in the biofluid pond in the utility model in embodiment one.

Fig. 6 is the schematic perspective view of the multiple reactive tanks in the utility model in embodiment one.

Fig. 7 is the schematical top view in the biofluid pond in the utility model in embodiment one.

Fig. 8 is the use schematic diagram in the biofluid pond in the utility model in embodiment one.

Fig. 9 is the process flow chart of the sewage disposal in the utility model in embodiment one.

Embodiment

Below in conjunction with accompanying drawing, preferred embodiment of the present utility model is further described.

Embodiment one

(utilizing the sewage disposal device of microorganism high-level efficiency low power consuming)

As shown in Figures 1 to 9, for the sewage disposal device utilizing the low power consuming of microorganism high-level efficiency in the present embodiment one, this sewage disposal device is applied to sewage 8 and the purification to impurities in water 81, and above-mentioned sewage disposal device comprises agitated pool 1, first settling tank 2, microorganism culturing pond 3, biofluid pond 4, second settling tank 5, sterilization pool 6 and discharge pond 7.

Agitated pool 1, this agitated pool 1 is in order to stir and to increase gas in sewage 8, and makes sewage 8 mix impurities in water 81, and impurities in water 81 is not precipitated.

First settling tank 2, this first settling tank 2 is communicated with agitated pool 1, first settling tank 2 includes the first water reservoir 21, the the first water purification honeycomb duct 22 extended above inner ring side by the first water reservoir 21, the the first impurity honeycomb duct 23 extended by the outer rim side of the first water reservoir 21 and be arranged on the first agitating arm 24 rotated in the first water reservoir 21, this first water reservoir 21 is accommodatingly carried the sewage 8 of coming by agitated pool 1, and by stirring sewage 8 lentamente by rotation first agitating arm 24, the impurities in water 81 of sewage 8 is slowly precipitated downwards, and by detaching to the first impurity honeycomb duct 23 bottom the first water reservoir 21, and by the first impurity honeycomb duct 23, impurities in water 81 is transported out of.And the comparatively cleaning that in the first water reservoir 21, the sewage 8 on upper strata is relative because of the precipitation through impurities in water 81, and flow out along with the first water purification road 22.

As Fig. 2, Fig. 3, shown in Fig. 4 and Fig. 9, for the structural representation in above-mentioned microorganism culturing pond 3, this microorganism culturing pond 3 is communicated with the first settling tank 2, this microorganism culturing pond 3 comprises a holding tank 31, multiplely be contained in microorganism culturing frame 32 in holding tank 31 and multiple induction pipe 33 be contained in holding tank 31, this microorganism culturing frame 32 is for having a support body 321, one is fixedly installed on the upper support bar 322 above support body 321, one is fixedly installed on support body 321 and the lower support bar 323 and set up relative to upper support bar 322 is set in implantation part 324 outside upper support bar 322 and lower support bar 323, induction pipe 33 is equipped with multiple ventilating pit 331, wherein, the sewage 8 that the first above-mentioned water purification road 22 flows out is for flowing into holding tank 31, microorganism culturing frame 32 in this holding tank 31 is for breeding for microorganism implantation, and above-mentioned induction pipe 33 is the use of conveying air, and it is interior for microbial reproduction to sewage 8 by ventilating pit 331 input air, microorganism and sewage 8 mix cooperative response, and sewage 8 flows out holding tank 31 and flows into biofluid pond 4.

As shown in Figures 5 to 9, above-mentioned biofluid pond 4 is communicated with microorganism culturing pond 3, this biofluid pond 4 comprises one first reactive tank 41, second reactive tank 42, the 3rd reactive tank 43, the 4th reactive tank 44, the 5th reactive tank 45, conveying reactive tank 46 and oxygenation unit 47, above-mentioned between first reactive tank 41, second reactive tank 42, the 3rd reactive tank 43, the 4th reactive tank 44 and the 5th reactive tank 45 for having a perforation be interconnected 411,421,431,441, and for including, oxygenation unit 47 pumps that propulsion source 471, acts on groove 472, multiple flusher 473, multiple breeding part 474 and are located in effect groove 472 bottom and are communicated with the through hole 475 of conveying reactive tank 46, multiple breeding part 474 is equipped with in this effect groove 472, multiple flusher 473 is provided with above this breeding part 474 top, this flusher 473 pumps propulsion source 471 for connection, and this pumps propulsion source 471 for being placed within the 5th reactive tank 45, the sewage 8 that above-mentioned holding tank 31 flows out flows in the first reactive tank 41, and sequentially flow into the second reactive tank 42 from front to back, 3rd reactive tank 43, 4th reactive tank 44 and the 5th reactive tank 45, make microorganism have certain hour reaction by above-mentioned action and carry out purifying waste water 8, and the 5th reactive tank 45 is accommodating oxygenation unit 47 pumps propulsion source 471, this is pumped propulsion source 471 and is pumped by sewage 8 in effect groove 472, and by multiple flusher 473, sewage 8 is sprayed onto on the surface of breeding part 474, microorganism in sewage 8 passes through by flusher 473 and breeds part 474 to reach oxygenation, cooling, the acting in conjunction of breeding and heat radiation, and by above-mentioned through hole 475, sewage 8 and microorganism are flowed in conveying reactive tank 46, this conveying reactive tank 46 is communicated with the second settling tank 5.

As shown in Figures 1 to 9, second settling tank 5 is communicated with the conveying reactive tank 46 in biofluid pond 4, the structure of the second settling tank 5 is identical with the structure of the first settling tank 2, this second settling tank 5 includes the second water reservoir 51, the the second water purification honeycomb duct 52 extended above inner ring side by the second water reservoir 51, the the second impurity honeycomb duct 53 extended by the outer rim side of the second water reservoir 51 and be arranged on the second agitating arm 54 rotated in the second water reservoir 51, this second water reservoir 51 is that the accommodating conveying reactive tank 46 by biofluid pond 4 carries the sewage 8 of coming, and stir sewage 8 lentamente by rotation second agitating arm 54, impurities in water 81 in sewage 8 is slowly precipitated downwards, and by detaching in the second impurity honeycomb duct 53 bottom the second water reservoir 51, and judged whether the impurities in water 8 be deposited in bottom the second water reservoir 51 to be carried out discharging or reclaiming by the opacity of sewage, and by the second impurity honeycomb duct 53, impurities in water 81 is carried out discharging or reclaiming, and in the second water reservoir 51 sewage 8 on upper strata because of relative comparatively clean after above-mentioned operation, and flow out in sterilization pool 6 along with the second water purification road 52.

Sterilization pool 6 is communicated with the second water purification road 52 of the second settling tank 5, and for being carried out disinfection by sewage 8, sewage 8 flow into after sterilizing in discharge pond 7.

Discharge pond 7 is communicated with sterilization pool 6, for being discharged in outside atmosphere by the sewage 8 after process.

The utility model is not limited to above-mentioned preferred forms; anyone can draw other various forms of products under enlightenment of the present utility model; no matter but any change is done in its shape or structure; every have identical with the application or akin technical scheme, all drops within protection domain of the present utility model.

Claims

1. one kind utilizes the sewage disposal device of microorganism high-level efficiency low power consuming, it is characterized in that, the described sewage disposal device of microorganism high-level efficiency low power consuming that utilizes comprises agitated pool, the first settling tank, microorganism culturing pond, biofluid pond, the second settling tank, sterilization pool and discharge pond;

2. utilize the sewage disposal device of microorganism high-level efficiency low power consuming as claimed in claim 1, it is characterized in that, described microorganism culturing frame has a support body, upper support bar, be fixedly installed on above support body and is fixedly installed on support body and the lower support bar and set up relative to upper support bar is set in implantation part outside upper support bar and lower support bar.

3. utilize the sewage disposal device of microorganism high-level efficiency low power consuming as claimed in claim 1 or 2, it is characterized in that, described oxygenation unit comprise pump propulsion source, effect groove, multiple flusher, multiple breeding part and be located in effect bottom land end and be communicated with the through hole of conveying reactive tank.

4. utilize the sewage disposal device of microorganism high-level efficiency low power consuming as claimed in claim 3, it is characterized in that, in described effect groove, be equipped with multiple breeding part.

5. utilize the sewage disposal device of microorganism high-level efficiency low power consuming as claimed in claim 4, it is characterized in that, flusher is provided with above described breeding part top, described flusher is that propulsion source is pumped in connection, described in pump propulsion source be contained in a reactive tank in described multiple reactive tank.