CN217972758U - Biochemical system integration high efficiency processing apparatus of sewage treatment - Google Patents
Biochemical system integration high efficiency processing apparatus of sewage treatment Download PDFInfo
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- CN217972758U CN217972758U CN202220869851.XU CN202220869851U CN217972758U CN 217972758 U CN217972758 U CN 217972758U CN 202220869851 U CN202220869851 U CN 202220869851U CN 217972758 U CN217972758 U CN 217972758U
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Abstract
The utility model discloses an integrated high-efficiency treatment device of a sewage treatment biochemical system, which comprises an anaerobic tank, an anoxic tank and an aerobic tank which are connected in sequence, wherein the anaerobic tank is provided with a water inlet pipe electromagnetic valve and a first stirring motor; the anoxic tank is provided with a second stirring motor and is connected with a reflux pump provided with a reflux pump frequency controller; the aerobic tank is connected with the reflux pump, the aerobic tank is provided with a dissolved oxygen probe and an aerator pipe, and the aerator pipe is connected with an aerator which is arranged outside the aerobic tank and is provided with an aerator frequency controller; the water inlet pipe electromagnetic valve, the first stirring motor, the second stirring motor, the dissolved oxygen probe, the aerator, the reflux pump frequency controller and the aerator frequency controller are all connected with an external Internet of things controller. The utility model discloses utilize the equipment in internet of things can the remote control biochemical system, be in a high efficiency state with biochemical treatment.
Description
Technical Field
The utility model relates to a water treatment facilities field especially relates to a biochemical system integration high efficiency treatment device of sewage treatment based on internet of things.
Background
The biochemical treatment of sewage is to treat pollutants in the wastewater by the metabolism of microorganisms, and can be generally divided into two categories, namely aerobic treatment and anaerobic treatment. The aerobic treatment is to remove pollutants in the wastewater by utilizing the metabolic activity of aerobic microorganisms under the action of aeration; anaerobic treatment is the removal of pollutants from wastewater by the metabolic action of anaerobic microorganisms under the exclusion of oxygen.
Biochemical treatment is the core link of sewage treatment, and the biochemical treatment of sewage in prior art does not combine with internet of things, often has the control operation complicacy, and the not high scheduling problem of treatment effeciency.
SUMMERY OF THE UTILITY MODEL
Utility model purpose: to prior art's not enough and defect, the utility model provides a biochemical system integration high efficiency treatment device of sewage treatment based on internet of things utilizes the equipment in internet of things can the biochemical system of remote control, is in a high efficiency state with biochemical treatment.
The technical scheme is as follows: the utility model discloses a biochemical system of sewage treatment integration high efficiency processing apparatus, its characterized in that: the anaerobic tank is provided with a water inlet pipe electromagnetic valve and a first stirring motor; the anoxic tank is provided with a second stirring motor and is connected with a reflux pump provided with a reflux pump frequency controller; the aerobic tank is connected with the reflux pump, the aerobic tank is provided with a dissolved oxygen probe and an aerator pipe, and the aerator pipe is connected with an aerator which is arranged outside the aerobic tank and is provided with an aerator frequency controller; the water inlet pipe electromagnetic valve, the first stirring motor, the second stirring motor, the dissolved oxygen probe, the aerator, the reflux pump frequency controller and the aerator frequency controller are all connected with an external Internet of things controller.
The anaerobic tank, the anoxic tank and the aerobic tank are sequentially arranged from top to bottom, and are sequentially connected through water pipes.
Wherein, first agitator motor be equipped with the (mixing) shaft that stretches into the anaerobism pond, this (mixing) shaft is equipped with a plurality of stirring leaf from top to bottom in proper order.
Wherein, the second stirring motor be equipped with the (mixing) shaft that stretches into the oxygen deficiency pond, this (mixing) shaft is equipped with a plurality of stirring leaf from top to bottom in proper order.
Wherein, the aeration pipe is provided with a plurality of aeration openings which are arranged upwards.
Has the beneficial effects that: compared with the prior art, the utility model has the following apparent advantage: the utility model relates to an integration biochemical treatment system, biochemical treatment are sewage treatment's core link, the utility model discloses utilize the equipment that internet of things can the remote control biochemical system, be in a high efficiency state with biochemical treatment.
Drawings
Fig. 1 is a schematic structural view of the present invention;
in the figure, 1 is an electromagnetic valve of a water inlet pipe, 2 is an anaerobic tank, 3 is a first stirring motor, 4 is an anoxic tank, 5 is a second stirring motor, 6 is an aerobic tank, 7 is a dissolved oxygen probe, 8 is an aerator pipe, 9 is an aerator, 10 is a reflux pump, 11 is a reflux pump frequency controller, and 12 is an aerator frequency controller.
Detailed Description
The technical solution of the present invention is further described with reference to the accompanying drawings and the detailed description below.
The utility model discloses an integrated high-efficiency treatment device of a sewage treatment biochemical system based on the technology of the Internet of things, which comprises an anaerobic tank 2, an anoxic tank 4 and an aerobic tank 6 which are connected in sequence, wherein the anaerobic tank 2 is provided with a water inlet pipe electromagnetic valve 1 and a first stirring motor 3; the anoxic tank 4 is provided with a second stirring motor 5, and the anoxic tank 4 is connected with a reflux pump 10 provided with a reflux pump frequency controller 11; the aerobic tank 6 is connected with a reflux pump 10, the aerobic tank 6 is provided with a dissolved oxygen probe 7 and an aerator pipe 8, and the aerator pipe 8 is connected with an aerator 9 which is arranged outside the aerobic tank 6 and is provided with an aerator frequency controller 12; the water inlet pipe electromagnetic valve 1, the first stirring motor 3, the second stirring motor 5, the dissolved oxygen probe 7, the aerator 9, the reflux pump 10, the reflux pump frequency controller 11 and the aerator frequency controller 12 are all connected with an external Internet of things controller. Wherein, the anaerobic tank 2, the anoxic tank 4 and the aerobic tank 6 are arranged from top to bottom in sequence, and the anaerobic tank 2, the anoxic tank 4 and the aerobic tank 6 are connected in sequence through water pipes. The first stirring motor 3 is provided with a stirring shaft extending into the anaerobic tank 2, and the stirring shaft is sequentially provided with a plurality of stirring blades from top to bottom. Second agitator motor 5 is equipped with the (mixing) shaft that stretches into oxygen deficiency pond 4, and this (mixing) shaft is equipped with a plurality of stirring leaf from top to bottom in proper order. The aeration pipe 8 is provided with a plurality of aeration openings which are arranged upwards.
During the use, inlet tube solenoid valve 1 is opened, and the water that needs to handle carries out anaerobic treatment from inlet tube entering anaerobism pond 2, stirs the water through first agitator motor 3 during anaerobic treatment. The water after anaerobic treatment enters the anoxic tank 4 at the lower part through a water pipe for anoxic treatment, and the water is stirred by a second stirring motor 5 during the anoxic treatment. The water body after the oxygen-poor treatment enters the lower aerobic tank 6 through a water pipe for aerobic treatment, aeration is carried out in the aerobic tank 6 through an aerator 9 and an aerator pipe 8, and the dissolved oxygen in the aerobic tank 6 is detected through a dissolved oxygen probe 7. The water in the aerobic tank 6 can flow back to the anoxic tank 4 through the reflux pump 10 for circular treatment, so that the treatment effect is ensured.
The utility model discloses a biochemical system integration high efficiency treatment device of sewage treatment based on internet of things, inlet tube solenoid valve 1, first agitator motor 3, second agitator motor 5, dissolved oxygen probe 7, aeration machine 9, backwash pump 10, backwash pump frequency controller 11, aeration machine frequency controller 12 all are connected with outside thing networking controller. The water inlet pipe electromagnetic valve 1, the first stirring motor 3, the second stirring motor 5, the dissolved oxygen probe 7, the aerator 9, the reflux pump 10, the reflux pump frequency controller 11 and the aerator frequency controller 12 can be remotely controlled through an internet of things controller. The dissolved oxygen in the aerobic tank 2 can be measured according to the dissolved oxygen probe 7, the dissolved oxygen start-stop threshold of the aeration pump can be set in the internet-of-things controller, the automatic and accurate aeration can be realized, and the frequency of the reflux pump 10, the frequency of the aeration pump and the inflow rate can be adjusted through the internet-of-things controller according to the required requirements.
The system is an integrated biochemical treatment device, biochemical treatment is a core link of sewage treatment, and the device can remotely control equipment in the biochemical system by utilizing the technology of the Internet of things and enables the biochemical treatment to be in a high-efficiency state. This device has following beneficial effect: 1. the biochemical system based on the Internet of things technology has the advantages that equipment can be remotely controlled, management is convenient, and labor cost is reduced. 2. The dissolved oxygen start-stop threshold of the aeration pump can be set in the internet-of-things controller, and automatic and accurate aeration is realized. 3. According to the state of the biochemical tank, the reflux of the aerobic tank can be remotely adjusted, the aeration is controlled, the water inlet flow is adjusted, and 2 stirring machines are started and stopped, so that the sludge activity state in the biochemical tank is good, and the biochemical system is in a high-efficiency and low-consumption state. 4. The device is a biochemical system integrated device, can be automatically selected and connected, and has strong adaptability.
Claims (5)
1. The utility model provides a biochemical system integration high-efficient processing apparatus of sewage treatment which characterized in that: the anaerobic tank (2) is provided with a water inlet pipe electromagnetic valve (1) and a first stirring motor (3); the anoxic tank (4) is provided with a second stirring motor (5), and the anoxic tank (4) is connected with a reflux pump (10) provided with a reflux pump frequency controller (11); the aerobic tank (6) is connected with a reflux pump (10), the aerobic tank (6) is provided with a dissolved oxygen probe (7) and an aerator pipe (8), and the aerator pipe (8) is connected with an aerator (9) which is arranged outside the aerobic tank (6) and is provided with an aerator frequency controller (12); the water inlet pipe electromagnetic valve (1), the first stirring motor (3), the second stirring motor (5), the dissolved oxygen probe (7), the aerator (9), the reflux pump (10), the reflux pump frequency controller (11) and the aerator frequency controller (12) are all connected with an external internet of things controller.
2. The integrated high-efficiency treatment device of the sewage treatment biochemical system according to claim 1, characterized in that: the anaerobic tank (2), the anoxic tank (4) and the aerobic tank (6) are sequentially arranged from top to bottom, and the anaerobic tank (2), the anoxic tank (4) and the aerobic tank (6) are sequentially connected through water pipes.
3. The integrated high-efficiency treatment device of the sewage treatment biochemical system according to claim 1, characterized in that: the first stirring motor (3) is provided with a stirring shaft extending into the anaerobic tank (2), and the stirring shaft is sequentially provided with a plurality of stirring blades from top to bottom.
4. The integrated high-efficiency treatment device of the sewage treatment biochemical system according to claim 1, characterized in that: the second stirring motor (5) is provided with a stirring shaft extending into the anoxic tank (4), and the stirring shaft is sequentially provided with a plurality of stirring blades from top to bottom.
5. The integrated high-efficiency treatment device of the sewage treatment biochemical system according to claim 1, characterized in that: the aeration pipe (8) is provided with a plurality of aeration openings which are arranged upwards.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220869851.XU CN217972758U (en) | 2022-04-15 | 2022-04-15 | Biochemical system integration high efficiency processing apparatus of sewage treatment |
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CN202220869851.XU CN217972758U (en) | 2022-04-15 | 2022-04-15 | Biochemical system integration high efficiency processing apparatus of sewage treatment |
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CN217972758U true CN217972758U (en) | 2022-12-06 |
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CN202220869851.XU Active CN217972758U (en) | 2022-04-15 | 2022-04-15 | Biochemical system integration high efficiency processing apparatus of sewage treatment |
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- 2022-04-15 CN CN202220869851.XU patent/CN217972758U/en active Active
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