CN216946641U - Enhanced coupling bio-membrane reactor generating device - Google Patents

Abstract

The utility model provides a generation device of a reinforced coupling biofilm reactor, which relates to the technical field of sewage treatment and comprises a primary treatment tank, a secondary treatment tank and a water storage tank, wherein the primary treatment tank is communicated with a water injection pipe, a submersible sewage pump is arranged in the primary treatment tank and is connected with a hair collector through a pipeline, and then the hair collector is communicated with the secondary treatment tank through a water guide pipe. According to the utility model, the primary treatment tank is arranged for carrying out treatment, filtration and purification on sewage, then the sewage passes through the hair collector and then enters the secondary treatment tank for carrying out secondary purification treatment, and then the sewage enters the water storage tank through overflow for carrying out precipitation treatment on a water source.

Description

Enhanced coupling bio-membrane reactor generating device

Technical Field

The utility model relates to the technical field of sewage treatment, in particular to a generation device of a reinforced coupling biofilm reactor.

Background

The reinforced coupling biological membrane reactor technology (academic name: aeration biological membrane reactor) is a novel sewage treatment technology combining a gas separation membrane technology and a biological membrane water treatment technology, and the core part of the reinforced coupling biological membrane reactor technology comprises a hollow fiber membrane and a biological membrane, and the biological membrane is attached to and grows on the outer surface of the oxygen-permeable hollow fiber membrane. Air directly supplies oxygen to the biological membrane through the hollow fiber membrane, the biological membrane is fully contacted with sewage, and organic matters, nitrogen, phosphorus and the like contained in the sewage are adsorbed, decomposed and removed by the biological membrane, so that the sewage is purified.

But the water quality biological purification device on the market at present is difficult to be widely used due to low treatment efficiency. The utility model provides a generation device of a reinforced coupling biological membrane reactor, which solves the problems that the treatment process of the sewage treatment system applying the reinforced coupling biological membrane reactor is single, the sewage treatment efficiency and quality are not high, and the market demand is difficult to meet.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a generation device of an enhanced coupling bio-membrane reactor, which is used for solving the technical problem.

In order to solve the technical problems, the utility model adopts the following technical scheme: a generation device of a reinforced coupling biofilm reactor comprises a primary treatment tank, a secondary treatment tank and a water storage tank, wherein the primary treatment tank is communicated with a water injection pipe, a submersible sewage pump is arranged in the primary treatment tank and is connected with a hair collector through a pipeline, and then the hair collector is communicated into the secondary treatment tank through a water guide pipe; the water storage tank is also communicated with the primary treatment tank and the secondary treatment tank again through a circulating assembly; the secondary treatment tank is internally provided with a membrane module, and the secondary treatment tank is separated from the water storage tank by a partition plate; also comprises an aeration component, wherein the aeration component is communicated with the primary treatment tank and the secondary treatment tank.

Preferably, the aeration assembly further comprises an aerator, an aeration conduit, a first aeration pipe and a second aeration pipe, wherein the aeration conduit is communicated with one side of the aerator and is communicated with the first aeration pipe and the second aeration pipe, the first aeration pipe is arranged in the primary treatment tank, and the second aeration pipe is arranged in the secondary treatment tank.

Preferably, a plurality of aeration heads are arranged on the first aeration pipe and positioned in the primary treatment tank, and a plurality of aeration heads are also arranged on the second aeration pipe and positioned in the secondary treatment tank.

Preferably, a filtering assembly is vertically arranged on the inner side of the primary treatment tank.

Preferably, filtering component includes outer frame, filter screen and slide rail, and wherein the slide rail is established on the inside both sides wall in primary treatment pond, and the filter screen is established in outer frame, outer frame and slide rail sliding connection.

Preferably, the circulation assembly comprises a circulation pump, one end of the circulation pump is communicated into the water storage tank through a pipeline, and the other end of the circulation pump is respectively communicated with the water injection pipe and the water guide pipe through a return pipe.

Preferably, an overflow pipe is arranged at the position above one side of the water storage tank, and a water quality sensor is further arranged in the water storage tank. In the using process, when the water quality sensor detects that the water quality does not reach the standard, the water source in the water storage tank can be led back to the primary treatment tank or the secondary treatment tank under the driving of the circulating pump.

Preferably, the water injection pipe, the water guide pipe and the return pipe are all provided with throttle valves. By arranging the throttle valves on the plurality of communication pipelines, the throttle valves can be arranged to control the flow rate of water flow and the like according to the needs of users.

Compared with the related technology, the reinforced coupling bio-membrane reactor generating device provided by the utility model has the following beneficial effects:

the utility model provides a generation device of a reinforced coupling biofilm reactor, which comprises a primary treatment tank, a secondary treatment tank, a water storage tank, a circulating pump, a primary treatment tank, a secondary treatment tank, a water source and a water storage tank, wherein the primary treatment tank is arranged for sewage treatment, filtration and purification, the secondary treatment tank is arranged for secondary purification treatment after the sewage passes through a hair collector, the water storage tank is arranged for water source precipitation treatment after the water enters the water storage tank through overflow; secondly, through setting up detachable filtering component, the roll-off in the slide rail can be followed to outer frame, when the filter screen later stage appears blockking up, is convenient for take out it, then clears up the filter screen, and labour saving and time saving provides convenience for the user.

Drawings

FIG. 1 is a schematic structural diagram of a reinforced coupling bio-membrane reactor generating device according to the present invention;

FIG. 2 is a schematic perspective view of the filter assembly of the present invention in mounted relation to a primary treatment tank;

reference numerals: 1. a primary treatment tank; 101. a filter assembly; 1011. an outer frame; 1012. filtering with a screen; 1013. a slide rail; 102. a first aeration pipe; 103. a submersible sewage pump; 104. a water injection pipe; 2. a secondary treatment tank; 201. a water conduit; 202. a second aeration pipe; 203. a membrane module; 3. a water storage tank; 301. an overflow pipe; 302. a water quality sensor; 4. a partition plate; 5. a throttle valve; 6. a hair collector; 7. a return pipe; 8. a circulation pump; 9. an aerator.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the utility model easily understood, the utility model is further described below with reference to the specific embodiments and the attached drawings, but the following embodiments are only the preferred embodiments of the utility model, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative efforts belong to the protection scope of the present invention.

Specific embodiments of the present invention are described below with reference to the accompanying drawings.

In the specific implementation process, as shown in fig. 1 and fig. 2, the enhanced coupling biofilm reactor generating device comprises a primary treatment tank 1, a secondary treatment tank 2 and a water storage tank 3, wherein the primary treatment tank 1 is communicated with a water injection pipe 104, a submersible sewage pump 103 is arranged in the primary treatment tank 1, the submersible sewage pump 103 is connected with a hair collector 6 through a pipeline, and then the hair collector 6 is communicated with the secondary treatment tank 2 through a water guide pipe 201; the water storage tank 3 is also communicated with the primary treatment tank 1 and the secondary treatment tank 2 again through a circulating assembly; the secondary treatment tank 2 is also internally provided with a membrane module 203, and the secondary treatment tank 2 is separated from the water storage tank 3 by a partition plate 4; also comprises aeration components which are communicated with the primary treatment tank 1 and the secondary treatment tank 2, and the membrane component 203 adopts an EHBR membrane component.

In the specific implementation process, as shown in fig. 1, the aeration assembly further comprises an aerator 9, an aeration conduit, a first aeration pipe 102 and a second aeration pipe 202, wherein one side of the aerator 9 is communicated with the aeration conduit, the aeration conduit is communicated with the first aeration pipe 102 and the second aeration pipe 202, the first aeration pipe 102 is arranged in the primary treatment tank 1, and the second aeration pipe 202 is arranged in the secondary treatment tank 2.

In the specific implementation process, as shown in fig. 1, a plurality of aeration heads are arranged on the first aeration pipe 102, and are located in the primary treatment tank 1, and a plurality of aeration heads are also arranged on the second aeration pipe 202, and are located in the secondary treatment tank 2; in use, the aerator 9 can inject aeration into the primary and secondary treatment tanks 1 and 2 through the first and second aeration pipes 102 and 202 by the action of the aerator 9.

In the specific implementation, as shown in fig. 1 and 2, the inside of the primary treatment tank 1 is provided with a filtering assembly 101 in the vertical direction. The filtering assembly 101 comprises an outer frame 1011, a filter screen 1012 and a slide rail 1013, wherein the slide rail 1013 is disposed on two side walls of the primary treatment tank 1, the filter screen 1012 is disposed inside the outer frame 1011, and the outer frame 1011 is slidably connected to the slide rail 1013; when the filter screen 1012 is blocked and needs to be removed, the outer frame 1011 and the connected filter screen 1012 can slide out from the two slide rails 1013, and then the user can take out the impurities accumulated on the filter screen 1012.

In the specific implementation process, as shown in fig. 1, the circulation component includes a circulation pump 8, one end of the circulation pump 8 is connected to the water storage tank 3 through a pipeline, and the other end is respectively connected to the water injection pipe 104 and the water guide pipe 201 through a return pipe 7. An overflow pipe 301 is arranged at the position above one side of the water storage tank 3, and a water quality sensor 302 is also arranged in the water storage tank 3; in the using process, when the water quality sensor 302 detects that the water quality does not reach the standard, the water source in the water storage tank 3 can be led back to the primary treatment tank 1 or the secondary treatment tank 2 under the driving of the circulating pump 8.

In the specific implementation process, as shown in fig. 1, the water injection pipe 104, the water guide pipe 201 and the return pipe 7 are all provided with the throttle valves 5, and the throttle valves 5 are arranged on a plurality of communication pipelines, so that the arrangement of the throttle valves 5 can be used for controlling the flow rate of water flow and the like according to the needs of users.

The implementation principle of the reinforced coupling bio-membrane reactor generating device of the utility model is as follows: when the device is used, firstly, sewage is led in from the water injection pipe 104, then the sewage enters the primary treatment tank 1 through the water injection pipe 104, then primary filtration of the sewage is carried out through the filtering component 101 in the primary treatment tank 1, after filtration, the sewage works by controlling the submersible sewage pump 103, under the driving of the submersible sewage pump 103, the sewage passes through the hair collector 6 to carry out secondary treatment on garbage hairs, and then the sewage enters the secondary treatment tank 2 through the water guide pipe 201;

the sewage entering the secondary treatment tank 2 is subjected to tertiary sewage treatment through the membrane module 203, then enters the water storage tank 3 through an overflow port on the partition plate 4 after being treated, then a water source is precipitated in the water storage tank 3, and water quality detection is carried out through the internal water quality sensor 302, when the water quality is detected to be not up to the standard, the circulating pump 8 works, and the circulating pump 8 transports the water source into the primary treatment tank 1 or the secondary treatment tank 2 through the return pipe 7 for retreatment; when the water quality sensor 302 detects that the water quality reaches the standard, the water is discharged through the overflow pipe 301;

during use, the user can control the operation of the aerator 9, and the aerator 9 can perform aeration treatment through the first aeration pipe 102 and the second aeration pipe 202, so as to perform aeration treatment on the primary treatment tank 1 and the secondary treatment tank 2.

The foregoing shows and describes the general principles, principal features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a strengthen coupling biofilm reactor generating device, includes primary treatment pond (1), secondary treatment pond (2) and tank (3), wherein the intercommunication has water injection pipe (104), its characterized in that on primary treatment pond (1): a sewage submersible pump (103) is arranged in the primary treatment tank (1), the sewage submersible pump (103) is connected with a hair collector (6) through a pipeline, and then the hair collector (6) is communicated into the secondary treatment tank (2) through a water guide pipe (201);

the water storage tank (3) is also communicated with the primary treatment tank (1) and the secondary treatment tank (2) again through a circulating assembly; a membrane module (203) is also arranged in the secondary treatment tank (2), and the secondary treatment tank (2) is separated from the water storage tank (3) through a partition plate (4);

also comprises an aeration component, wherein the aeration component is communicated with the primary treatment tank (1) and the secondary treatment tank (2).

2. The apparatus of claim 1 wherein the biofilm reactor generating device with enhanced coupling is characterized in that: the aeration component also comprises an aerator (9), an aeration conduit, a first aeration pipe (102) and a second aeration pipe (202), wherein one side of the aerator (9) is communicated with the aeration conduit which is communicated with the first aeration pipe (102) and the second aeration pipe (202), the first aeration pipe (102) is arranged in the primary treatment tank (1), and the second aeration pipe (202) is arranged in the secondary treatment tank (2).

3. The biofilm reactor enhancing coupling generating device of claim 2, wherein: the first aeration pipe (102) is provided with a plurality of aeration heads which are positioned in the primary treatment tank (1), the second aeration pipe (202) is also provided with a plurality of aeration heads which are positioned in the secondary treatment tank (2).

4. The biofilm reactor enhancing coupling generating device of claim 1, wherein: and a filtering assembly (101) is arranged in the vertical direction of the inner side of the primary treatment tank (1).

5. The biofilm reactor enhancing coupling generating device of claim 4, wherein: filter assembly (101) includes outer frame (1011), filter screen (1012) and slide rail (1013), and wherein slide rail (1013) are established on the inside both sides wall of primary treatment pond (1), and filter screen (1012) establish in outer frame (1011), outer frame (1011) and slide rail (1013) sliding connection.

6. The biofilm reactor enhancing coupling generating device of claim 1, wherein: the circulating assembly comprises a circulating pump (8), one end of the circulating pump (8) is communicated into the water storage tank (3) through a pipeline, and the other end of the circulating pump is respectively communicated with the water injection pipe (104) and the water guide pipe (201) through a return pipe (7).

7. The biofilm reactor enhancing coupling generating device of claim 6, wherein: an overflow pipe (301) is arranged at the position above one side of the water storage tank (3), and a water quality sensor (302) is further arranged in the water storage tank (3).

8. The apparatus of claim 7 where the biofilm reactor generating device with enhanced coupling is further characterized in that: and throttle valves (5) are arranged on the water injection pipe (104), the water guide pipe (201) and the return pipe (7).

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