CN209161595U - A kind of high-efficiency sewage filter membrane machine - Google Patents

Abstract

The utility model discloses a kind of high-efficiency sewage filter membrane machines, including reactor body, the reactor body includes former pond, anaerobic pond, aerobic tank, membrane biological reaction pond, sludge storage pool and processing pond, the former pond, anaerobic pond, aerobic tank, membrane biological reaction pond, it is separated by partition between sludge storage pool and processing pond, water distributor and outlet pipe are respectively set at the top of partition, water inlet is arranged in the reactor body left side top, grid is set in former pond left side top, aeration tube is set in the aerobic tank, sludge filter plate is arranged in interior interval on the left of membrane biological reaction pond, rotation aerator is set gradually between the sludge filter plate, the interior setting ceramic flat facial mask on the right side of membrane biological reaction pond, the utility model structure is simple, it is easy to operate, long service life of the ceramic flat facial mask than traditional hollow , contamination resistance is stronger, and compressive property is good, than compared with area hollow-fibre membrane water flux it is bigger, working efficiency is higher.

Description

A kind of high-efficiency sewage filter membrane machine

Technical field

The utility model relates to technical field of sewage treatment equipment, and in particular to a kind of high-efficiency sewage filter membrane machine.

Background technique

Membrane bioreactor (MBR) is a kind of novel water process skill that efficient membrane separation technique is combined with activated sludge process Art.The application of hollow-fibre membrane replaces the secondary settling tank in activated sludge process, is separated by solid-liquid separation, has effectively reached mud-water separation Purpose.The efficient crown_interception of film is made full use of, the removal rate of major pollutants is reachable: COD > 83%, SS > 85%.Water outlet Suspended matter and turbidity are practically negligible, and water quality that treated is good and stablizes, and realize dirty ice recycling.

Common hollow-fibre membrane is as reaction component in existing membrane bioreactor, however the use of hollow-fibre membrane Service life is short, resistance tocrocking is poor, effluent quality is unstable, occupied area is larger, system impact resistance is poor.

Utility model content

The purpose of this utility model is to overcome the deficiencies in the prior art, and provide a kind of high-efficiency sewage filter membrane machine, packet Include reactor body, the reactor body include former pond, anaerobic pond, aerobic tank, membrane biological reaction pond, sludge storage pool and Pond is handled, is passed through between the former pond, anaerobic pond, aerobic tank, membrane biological reaction pond, sludge storage pool and processing pond Partition separates, and water distributor and outlet pipe are respectively set at the top of partition, and water inlet is arranged in the reactor body left side top, Grid is set in former pond left side top, aeration tube is set in the aerobic tank, the interior interval setting on the left of membrane biological reaction pond Sludge filter plate sets gradually rotation aerator between the sludge filter plate, the interior setting ceramic flat on the right side of membrane biological reaction pond Facial mask, the processing pond outside are arranged overflow port, L-type efferent duct are arranged below overflow port.

Preferably, the former pond, anaerobic pond, aerobic tank, membrane biological reaction pond, sludge storage pool and processing pond top Access hole is respectively set in portion.

Preferably, the first elevator pump is set between the former pond and anaerobic pond, the input terminal of first elevator pump It is connect with water distributor on the right side of former pond, output end is connect with outlet pipe on the left of anaerobic pond, is set between the anaerobic pond and aerobic tank The second elevator pump is set, the input terminal of second elevator pump is connect with water distributor on the right side of anaerobic pond, on the left of output end and aerobic tank Outlet pipe connection, is arranged third elevator pump, the input terminal of the third elevator pump between the aerobic tank and membrane biological reaction pond It is connect with water distributor on the right side of aerobic tank, output end is connect with outlet pipe on the left of membrane biological reaction pond, the membrane biological reaction bottom of pond Portion setting sludge settling slot connect with sludge pump input terminal, output end is connect with sludge storage pool, the membrane biological reaction pond and Suction pump is arranged between pond in processing, and the suction pump input terminal is connect with water distributor on the right side of membrane biological reaction pond, output end and Outlet pipe connection on the left of pond is handled, circulating pump, circulating pump input terminal and processing are set between processing pond and the former pond Pond connection, output end are connect with former pond.

Preferably, the sludge settling slot, in cone, bottom radius is less than top radius, and bottom passes through return pipe It is connect with sludge pump.

Preferably, the aeration tube is connect with air blower with rotation aerator, the rotation aerator includes Main aeration tube, upper auxiliary aeration tube, lower auxiliary aeration tube, tee tube, rotary shaft and blade, described tee tube left side one end and master Aeration tube connection above assists aeration tube to connect with lower auxiliary aeration tube, on the right side of the tee tube respectively in tee tube upper/lower terminal One end is connect by bearing with rotary shaft one end, and the rotary shaft other end is connect with blade.

Preferably, the sludge filter plate and reactor body roof are in 45 ° of -60 ° of angles, uniformly and equidistantly it is arranged several It is a to be distributed in membrane biological reaction pond, and the spacing distance between sludge filter plate is 25-40cm.

Preferably, be respectively set in the former pond, anaerobic pond and aerobic tank liquidometer control respectively the first elevator pump, Ultraviolet ray disinfector is arranged on the L-type efferent duct in second elevator pump and third elevator pump.

The beneficial effects of the utility model are: structure is simple, easy to operate, ceramic flat facial mask is than traditional hollow Long service life, contamination resistance is stronger, and compressive property is good, than compared with area hollow-fibre membrane water flux it is bigger, work effect Rate is higher, and the setting of rotation aerator cooperation sludge filter plate frees membrane module from traditional sludge environment, from root The condition that membrane module pollution is destroyed in sheet, enhances contamination resistance, and rotation aerator will increase water flow to the pressure of biomembrane, Hydraulic loading is improved to improve the treatment effeciency of biomembrane, while the setting of sludge filter plate is direct to biomembrane by alleviation water flow Impact guides uniform fluid flow, smoothly reaches biomembrane reaction area, reduces the damage to membrane module.

Detailed description of the invention

The utility model will illustrate by example and with reference to the appended drawing, in which:

Fig. 1 is the schematic diagram of the section structure of the utility model；

Fig. 2 is the structural schematic diagram of the utility model；

Fig. 3 is the structural schematic diagram that aerator is rotated in the utility model.

In figure: 1, reactor body；2, former pond；3, anaerobic pond；4, aerobic tank；5, membrane biological reaction pond；6, sludge is deposited Reservoir；7, pond is handled；8, partition；9, water distributor；10, outlet pipe；11, access hole；12, water inlet；13, grid；14, it is aerated Pipe；15, sludge filter plate；16, aerator is rotated；17, ceramic flat facial mask；18, overflow port；19, L-type efferent duct；20, it first mentions Rise pump；21, the second elevator pump；22, third elevator pump；23, sludge pump；24, suction pump；25, circulating pump；26, sludge settling slot； 27, air blower；28, main aeration tube；29, tee tube；30, upper auxiliary aeration tube；31, lower auxiliary aeration tube；32, rotary shaft；33, Blade.

Specific embodiment

Any feature disclosed in this specification unless specifically stated can be equivalent or with similar purpose by other Alternative features are replaced.That is, unless specifically stated, each feature is an example in a series of equivalent or similar characteristics ?.

A kind of high-efficiency sewage filter membrane machine as shown in Figs. 1-3, including reactor body 1, the reactor body 1 include original Pond 2, anaerobic pond 3, aerobic tank 4, membrane biological reaction pond 5, sludge storage pool 6 and processing pond 7, the former pond 2, anaerobic pond 3, it is separated by partition 8 between aerobic tank 4, membrane biological reaction pond 5, sludge storage pool 6 and processing pond 7, at 8 top of partition Water distributor 9 and outlet pipe 10 is respectively set, 1 left side top of reactor body is arranged water inlet 12, pushes up on the left of former pond 2 Grid 13 is set in portion, aeration tube 14 is set in the aerobic tank 4, the interval setting sludge filtering in 5 left side of membrane biological reaction pond Plate 15 sets gradually rotation aerator 16 between the sludge filter plate 15, and ceramic flat is arranged in 5 right side of membrane biological reaction pond Overflow port 18 is arranged on the outside of the processing pond 7 for facial mask 17, and L-type efferent duct 19 is arranged below overflow port 18.The former pond 2, access hole 11 is respectively set at the top of anaerobic pond 3, aerobic tank 4, membrane biological reaction pond 5, sludge storage pool 6 and processing pond 7.Institute It states and the first elevator pump 20 is set between former pond 2 and anaerobic pond 3,2 right side of input terminal and former pond of first elevator pump 20 Water distributor 9 connects, and output end is connect with 3 left side outlet pipe 10 of anaerobic pond, is arranged second between the anaerobic pond 3 and aerobic tank 4 The input terminal of elevator pump 21, second elevator pump 21 is connect with 3 right side water distributor 9 of anaerobic pond, 4 left side of output end and aerobic tank Outlet pipe 10 connects, and third elevator pump 22, the third elevator pump 22 are arranged between the aerobic tank 4 and membrane biological reaction pond 5 Input terminal connect with 4 right side water distributor 9 of aerobic tank, output end is connect with 5 left side outlet pipe 10 of membrane biological reaction pond, the film 5 bottom of biological reaction pool setting sludge settling slot 26 is connect with 23 input terminal of sludge pump, and output end is connect with sludge storage pool 6, Suction pump 24,24 input terminal of suction pump and membrane biological reaction pond are set between the membrane biological reaction pond 5 and processing pond 7 The connection of 5 right side water distributors 9, output end is connect with processing 7 left side outlet pipe 10 of pond, between the processing pond 7 and former pond 2 Circulating pump 25 is set, and 25 input terminal of circulating pump is connect with processing pond 7, and output end is connect with former pond 2.The sludge settling slot 26 in cone, and bottom radius is less than top radius, and bottom is connect by return pipe with sludge pump 23.The aeration tube 14 with Rotation aerator 16 is connect with air blower 27, and the rotation aerator 16 includes main aeration tube 28, upper auxiliary aeration tube 30, lower auxiliary aeration tube 31, tee tube 29, rotary shaft 32 and blade 33, described 29 left side one end of tee tube and main aeration tube 28 Connection, in upper auxiliary aeration tube 30 and the connection of lower auxiliary aeration tube 31 respectively of 29 upper/lower terminal of tee tube, the tee tube 29 is right Side one end is connect by bearing with 32 one end of rotary shaft, and 32 other end of rotary shaft is connect with blade 33.The sludge filter plate 15 with 1 roof of reactor body is in 45 ° of -60 ° of angles, several are uniformly and equidistantly arranged and is distributed in membrane biological reaction pond 5, and sludge Spacing distance between filter plate 15 is 25-40cm.Liquid level score is respectively set in the former pond 2, anaerobic pond 3 and aerobic tank 4 The first elevator pump 20, the second elevator pump 21 and third elevator pump 22 are not controlled, and disinfection by ultraviolet light is set on the L-type efferent duct 19 Device.The aperture of the upper auxiliary aeration tube 30 and lower auxiliary aeration tube 31 is respectively facing blade 33, and the gas that when aeration generates will Push the rotation automatically of blade 33, progress water conservancy diversion, and blade 33 towards ceramic flat facial mask 17.On the right side of the ceramic flat facial mask 17 respectively Setting washing pipe and air purge pipe, washing pipe are connect with backwash pump output terminal, and backwashing pump input terminal is connect with processing pond 7, is carried out Washing, air purge pipe are connect with 27 output end of air blower, carry out air purge.All pipelines use galvanized pipe, reactor body 1 and 8 steel fittings of partition are all made of epoxide coal bituminous anti-corrosion.The settable sludge settling slot of the anaerobic pond 3 and 4 bottom of aerobic tank 26 are connect by return pipe with sludge pump 23.

The working principle of the present embodiment is as follows: raw water is input in former pond 2 by water inlet 12 first, herein Grid 13 is by the large granular impurity in intercepting sewage in the process, then by the first elevator pump of liquidometer control 20 to control into Enter the discharge of sewage of anaerobic pond 3, anaerobic pond 3 promotes the growth of denitrifying bacterium and anaerobic bacteria, removes part total nitrogen, in water of degrading Macromolecular is equivalent to hydrolysis acidification pool, into aerobic tank 4, cooperates aeration tube 14 in aerobic tank 4, by the oxygen in air force to It is shifted in liquid, obtains enough dissolved oxygens, aeration also prevents suspended substance in aerobic zone 4 from sinking, reinforces organic matter in aerobic zone 4 It is contacted with microorganism and dissolved oxygen, guarantees that microorganism is under conditions of having sufficient dissolved oxygen in pond, to the oxygen of dirty Organic substance in water Change and decompose, form mud mixture, mud mixture is entering membrane biological reaction pond 5, because organic matter and suspended matter are less, simultaneously Cooperate sludge filter plate 15 to carry out water conservancy diversion to sludge, then water flow will be increased to the pressure of biomembrane by rotation aerator 16, mentions High water-base fluid is to improve the treatment effeciency of biomembrane, while sludge filter plate 15 also acts as alleviation water flow and directly rushes to biomembrane It hits, guides uniform fluid flow, smoothly reach membrane biological reaction pond 5, reduction is effectively reduced membrane bioreaction to the damage of membrane module The load for answering 5 component of pond, substantially reduces aeration intensity, when needing to carry out backwash to ceramic flat facial mask 17, by backwashing pump and Air blower 27 is i.e. capable of washing, cooperates sludge pump 23 that sludge is delivered to sludge storage pool 6 by sludge settling slot 26, when processing water When 7 water quality detection of pond is not up to standard, processing water can be back in former pond 2 by circulating pump 25 and carry out secondary treatment, work as processing When 7 water quality detection of pond is up to standard, it can be delivered to the external world by L-type efferent duct 19, when needing to overhaul 1 inside of reactor body, Maintenance observation can be carried out by access hole 11, will be discharged by overflow port 18 when handling when water level is excessively high in pond 7.

The utility model is not limited to specific embodiment above-mentioned.The utility model expands to any in this specification The new feature of middle disclosure or any new combination, and disclose any new method or process the step of or any new group It closes.

Claims (7)

1. a kind of high-efficiency sewage filter membrane machine, including reactor body (1), it is characterised in that: the reactor body (1) includes original Pond (2), anaerobic pond (3), aerobic tank (4), membrane biological reaction pond (5), sludge storage pool (6) and processing pond (7), the original Between pond (2), anaerobic pond (3), aerobic tank (4), membrane biological reaction pond (5), sludge storage pool (6) and processing pond (7) It is separated by partition (8), water distributor (9) and outlet pipe (10), the reactor body (1) is respectively set at the top of partition (8) Water inlet (12) are arranged in left side top, and grid (13) are arranged in former pond (2) left side top, setting in the aerobic tank (4) Aeration tube (14), on the left of membrane biological reaction pond (5) in interval setting sludge filter plate (15), between the sludge filter plate (15) according to Secondary setting rotates aerator (16), interior on the right side of membrane biological reaction pond (5) that ceramic flat facial mask (17) are arranged, the processing pond (7) overflow port (18) are arranged in outside, and L-type efferent duct (19) are arranged below overflow port (18).

2. a kind of high-efficiency sewage filter membrane machine according to claim 1, it is characterised in that: the former pond (2), anaerobic pond (3), access hole is respectively set at the top of aerobic tank (4), membrane biological reaction pond (5), sludge storage pool (6) and processing pond (7) (11)。

3. a kind of high-efficiency sewage filter membrane machine according to claim 1, it is characterised in that: the former pond (2) and anaerobic pond (3) it is arranged between the first elevator pump (20), water distributor (9) on the right side of the input terminal of first elevator pump (20) and former pond (2) Connection, output end are connect with outlet pipe (10) on the left of anaerobic pond (3), are arranged second between the anaerobic pond (3) and aerobic tank (4) Elevator pump (21), the input terminal of second elevator pump (21) are connect with water distributor (9) on the right side of anaerobic pond (3), output end with it is good Outlet pipe (10) connects on the left of oxygen pond (4), and third elevator pump is arranged between the aerobic tank (4) and membrane biological reaction pond (5) (22), water distributor (9) is connect on the right side of the input terminal with aerobic tank (4) of the third elevator pump (22), output end and membrane bioreaction Outlet pipe (10) connects on the left of Ying Chi (5), membrane biological reaction pond (5) bottom setting sludge settling slot (26) and sludge pump (23) input terminal connects, and output end is connect with sludge storage pool (6), between the membrane biological reaction pond (5) and processing pond (7) It is arranged suction pump (24), suction pump (24) input terminal is connect with water distributor (9) on the right side of membrane biological reaction pond (5), output end It is connect with outlet pipe (10) on the left of processing pond (7), circulating pump (25) is set between the processing pond (7) and former pond (2), Circulating pump (25) input terminal is connect with processing pond (7), and output end is connect with former pond (2).

4. a kind of high-efficiency sewage filter membrane machine according to claim 3, it is characterised in that: the sludge settling slot (26) is in circle Taper, bottom radius are less than top radius, and bottom is connect by return pipe with sludge pump (23).

5. a kind of high-efficiency sewage filter membrane machine according to claim 1, it is characterised in that: the aeration tube (14) and rotation expose Device of air (16) is connect with air blower (27), and the rotation aerator (16) includes main aeration tube (28), upper auxiliary aeration Manage (30), lower auxiliary aeration tube (31), tee tube (29), rotary shaft (32) and blade (33), tee tube (29) left side one End is connect with main aeration tube (28), above assists aeration tube (30) and lower auxiliary aeration tube respectively in tee tube (29) upper/lower terminal (31) it connects, one end is connect by bearing with rotary shaft (32) one end on the right side of the tee tube (29), rotary shaft (32) other end It is connect with blade (33).

6. a kind of high-efficiency sewage filter membrane machine according to claim 1, it is characterised in that: the sludge filter plate (15) with react Device main body (1) roof is in 45 ° of -60 ° of angles, several are uniformly and equidistantly arranged and is distributed in membrane biological reaction pond (5), and sludge Spacing distance between filter plate (15) is 25-40cm.

7. a kind of high-efficiency sewage filter membrane machine according to claim 1, it is characterised in that: the former pond (2), anaerobic pond (3) and in aerobic tank (4) liquidometer is respectively set and controls the first elevator pump (20), the second elevator pump (21) and third promotion respectively It pumps (22), ultraviolet ray disinfector is set on the L-type efferent duct (19).