CN208049717U - Across the detachable filter membrane component of the temperature difference - Google Patents

Abstract

The utility model discloses one kind across the detachable filter membrane component of the temperature difference, belong to the technical field of sewage of environmental protection, including across the temperature difference detachable tubular membrane module, across the hollow membrane module of the detachable pillar of the temperature difference, across the hollow membrane module of the detachable immersion of the temperature difference, across the detachable hard plate membrane module of the temperature difference, plate film assembly is discharged across the detachable soft side water outlet plate film assembly of the temperature difference and across the detachable soft middle part of the temperature difference；The membrane module is suitble to sewage water temperature range wide, combination is flexible, control valve that can be by opening Inlet and outlet water or capping, the membrane component of macropore is set to participate in production water operation, make membrane module that can also have the flux met the requirements in low temperature, the control valve of Inlet and outlet water is closed when water temperature is moderate or is closed the membrane component intake-outlet of macropore with capping, or the membrane component of dismounting macropore and the membrane component in its position installation aperture, and effluent quality is made to be protected.

Description

Across the detachable filter membrane component of the temperature difference

Technical field

The utility model is related to a kind of filter membrane equipment, belong to the technical field of sewage of environmental protection, and especially one kind is across temperature The detachable filter membrane component of difference.

Background technology

Membrane bioreactor, that is, MBR technology is widely used in sewage disposal at present, and membrane bioreactor is The novel state waste water treatment system that membrane separation technique is organically combined with biologic treating technique.At filter membrane equipment substitution traditional biological The secondary settling tank of reason technology end keeps high activity sludge concentration in membrane bioreactor, improves biological treatment organic loading, from And sewage treatment facility floor space is reduced, and by keeping low sludge loading to reduce surplus sludge volume.Main utilize is immersed in The activated sludge and larger molecular organics in membrane retention aerobic biochemical pool in aerobic biochemical pool.Or be arranged outside biochemistry pool, The tubular membrane component that water inlet pipe is connect with biochemistry pool, referred to as external membrane bioreactor, membrane bioreactor are effective because of it Crown_interception, can retain generation cycle longer microorganism, it can be achieved that deep purification of waste water, Simultaneous Nitrification bacterium energy in system Fully breeding, nitrification effect is apparent, and good using effect has been obtained in engineering practice.

Common filter membrane mainly has microfiltration membranes and ultrafiltration membrane in sewage treatment project.

Microfiltration membranes and the appellation of ultrafiltration membrane are the pore sizes according to membrane material；

Its aperture of microfiltration membranes is much greater for the aperture of ultrafiltration membrane between 0.02 μm to 10 μm, is referred to as Macroporous membrane；

Its aperture of ultrafiltration membrane is much smaller for the aperture of microfiltration membranes between 0.001 μm to 0.02 μm, is claimed For small pore membrane；

The membrane material of macroporous membrane and small pore membrane can be divided into hollow-fibre membrane film wire in the physical aspect for being manufactured into membrane component, Tubular membrane membrane tube, plate membrane diaphragm, putamina and attached pipe fitting with the aeration tube 15 or outside of external frame 9 and lower part Deng composition membrane module；

The hollow membrane module of pillar, as shown in figure 11：Pillar hollow membrane perineurium 43 is made of hollow-fibre membrane film wire, in pillar Empty film perineurium is arranged in pillar putamina 34, and pillar putamina 34 is vertically arranged, and air inlet 35, the side setting of lower part is arranged in lower part Clear water chamber 30 is arranged in the upper end of water inlet 36, film wire, and inside and the clear water chamber 30 of film wire connect, and the side of clear water chamber 30 is set Clean water outlet 10 is set out, top sets up out concentrated water spout 31, and the lower end of film wire is closed end socket, and film wire bottom head is in film wire Periphery be arranged through-hole.

The hollow membrane module of immersion I-shaped, as shown in figure 13：The hollow membrane component of I-shaped 40 is arranged in frame, up and down Collector pipe 13 is respectively set in both ends, and collector pipe 13 is connect with outlet pipe, and film wire both ends are fixed with the collector pipe of top and the bottom respectively to be connected It connects, the hole of the intermediate hollow of film wire is connected to the inside of collector pipe 13, and collector pipe 13 is connect with water producing pipe 24, the lower part of membrane component Aeration tube 15 is set；

The hollow membrane component 41 of bundled tube of the hollow membrane module of immersion bundled tube, as shown in figure 17：It is arranged in frame, on Clear water chamber 30 is arranged in portion, and clear water chamber top is clean water outlet 10, and lower part is closed end socket, the periphery setting of bottom head perineurium Venthole, the following setting aeration tube 15 of venthole, goes out clean water outlet and is connect with water producing pipe 24, and aeration tube is arranged in the lower part of membrane component 15；

Water producing pipe 24 is connect with the water inlet of production water pump, and the negative-pressure ward by producing water pump makes the water outside filter membrane pass through filter Film surface enters on the inside of filter membrane, is flowed out by water producing pipe 24, pollutant is trapped in the outside of filter membrane.

Tubular membrane component, as shown in figure 12：Tubular membrane membrane tube 39 is arranged in tubular type putamina 3, and both ends are cured end socket, Water outlet 26 is arranged in the side of the putamina at both ends, is connected by clip 8 between tubular type putamina and elbow 7, sewage is in circulating pump Flowing, pollutant are trapped in the inside of tubular membrane membrane tube in tubular membrane membrane tube 39 under effect, with the drainage flow of flowing, pollution Object is with the sewage backflow of reflux to the biochemistry pool of front-end-of-line, and production water is entered on the outside of membrane tube by tubular membrane membrane tube tube wall and putamina Between, it is flowed out by water outlet 26.

Hard plate membrane module, as shown in figure 14：The middle part of hard plate membrane component 45 is support plate, the both sides of support plate It is flow-guiding cloth, is diaphragm on the outside of flow-guiding cloth, the surrounding of diaphragm is connect with support plate, generally on the top of hard plate membrane component Or water outlet 26 is arranged in both sides, hard plate membrane component is vertically set in frame 9, and frame 9 is also named film case, the lower part of frame 9 Aeration tube 15 is set.

Soft side is discharged plate film assembly, as shown in figure 15：The centre of soft side water outlet flat membrane component 44 is flow-guiding cloth, It is diaphragm on the outside of flow-guiding cloth, the one or both sides setting of the side connection of two latallaes, soft side water outlet flat membrane component is catchmented Pipe 13, diaphragm are connect with collector pipe 13, and the inside of diaphragm is connected to the inside of collector pipe 13, and collector pipe 13 connects with water producing pipe 24 It connects, soft side water outlet flat membrane component is vertically set in film frame 9, and collector pipe 13 is setting up and down or left and right settings, frame 9 Aeration tube 15 is arranged in lower part.

Soft middle part is discharged plate film assembly, as shown in figure 16：The middle part of centre water outlet flexible slab membrane component 42 is branch The both sides of fagging, support plate are flow-guiding cloths, are diaphragm on the outside of flow-guiding cloth, and the surrounding of diaphragm is connect with support plate, collector pipe 13 It is arranged at the middle part of diaphragm, diaphragm is connect with collector pipe 13, and the inside of diaphragm is connected to the inside of collector pipe 13, and centre water outlet is soft Matter flat membrane component is vertically set in film frame 9, and aeration tube 15 is arranged in the lower part of frame 9.

Negative-pressure ward by producing water pump makes the water outside diaphragm pass through on the inside of membrane surface inlet membrane, passes through collector pipe Or water outlet, then flowed out by water producing pipe, pollutant is trapped in the outside of diaphragm.

There is also following deficiencies for existing filter membrane component：

1, flux declines when low temperature, cannot be satisfied production water water requirement：

The north is especially in three provinces in the northeast of China, and the Inner Mongol, the areas such as Xinjiang, temperature is for a long time in -20 DEG C to -30 in winter DEG C, even if sewage disposal device rarely reaches the temperature of normal operation if taking Insulation, because water temperature is too low, membrane flux Decline 30% to 80%, cannot be satisfied production water water requirement, seriously affect the normal operation of sewage disposal system.

2, macroporous membrane interception rate is low, and effluent quality is poor：

Macroporous membrane because its aperture it is big, water yield is several times to tens times of small pore membrane of the same area, but its to pollution The interception rate of object is very low, and effluent quality is poor, is unable to reach the production water quality of small pore membrane.

Invention content

The utility model to solve the deficiencies in the prior art, provides one kind across the detachable filter membrane component of the temperature difference, the film group Water flux is big when part low temperature, and effluent quality is good when room temperature and high temperature, can be suitble to flat membrane component respectively, tubular type membrane component and in The filter membrane component of empty membrane component.

The utility model solve problem above technical solution be：Across the detachable filter membrane component of the temperature difference, including across the temperature difference Detachable tubular membrane module, across the hollow membrane module of the detachable pillar of the temperature difference, across the detachable immersion hollow membrane group of the temperature difference Part, across the detachable hard plate membrane module of the temperature difference, across the detachable soft side water outlet plate film assembly of the temperature difference and can across the temperature difference The soft middle part of detachable is discharged plate film assembly；Across the temperature difference detachable tubular membrane module therein includes tubular type putamina, macropore Tubular membrane perineurium, aperture tubular membrane perineurium, steel wire spiral pipe or steel wire network pipe, inlet and outlet control valve door or capping, elbow, card Hoop；End socket is arranged in macropore tubular membrane perineurium and aperture tubular membrane perineurium both ends, and membrane tube inside penetrates through at end socket, the outer side seal of membrane tube It closes, or setting steel wire spiral pipe or steel wire network pipe on the inside of the pipe of macropore tubular membrane perineurium and aperture tubular membrane perineurium, steel wire spiral shell The outer diameter of coil or steel wire network pipe is identical as the internal diameter of aperture tubular membrane perineurium as macropore tubular membrane perineurium；Macropore tubular membrane perineurium Mounted on the middle part of tubular type putamina or the side of tubular type putamina, around be aperture tubular membrane perineurium, macropore tubular membrane perineurium The outside setting at both ends covers, and the both ends end socket of macropore tubular membrane perineurium and aperture tubular membrane perineurium integrally fixes encapsulation or independent Inlet and outlet control valve door, inlet and outlet control valve door direction is arranged in encapsulation, or elbow corresponding with macropore tubular membrane perineurium both sides The side setting of macropore tubular membrane perineurium is more than the pipe of macropore tubular membrane perineurium diameter 1mm to 5mm, passes through branch on the outside of pipe Dagger is fixedly connected with elbow interior wall, or pipe identical with macropore tubular membrane perineurium top end socket cross-sectional profile, macropore tubular type The both ends of film perineurium outwardly protrude 2mm to 20mm than the both ends end socket of aperture tubular membrane perineurium, pipe or with macropore tubular membrane film End seal head cross-sectional profile identical pipe sleeve in bunchy top is mounted in the outside of macropore tubular membrane perineurium protrusion part, inlet and outlet control valve door Shaft pass through the tube wall of elbow, valve handle is arranged in the top of shaft；Include across the hollow membrane module of the detachable pillar of the temperature difference Pillar putamina, macropore pillar hollow membrane perineurium, aperture pillar hollow membrane perineurium, outlet water control valve door or capping, clear water chamber go out clear The mouth of a river, concentrated water chamber go out concentrated water spout, water inlet, clip；Macropore pillar hollow membrane perineurium is mounted on middle part or the pillar of pillar putamina The side of putamina, around be aperture pillar hollow membrane perineurium, pillar putamina is vertically arranged, lower part be arranged air inlet, lower part Water inlet is arranged in side, and clear water chamber is arranged in the upper end of film wire, and inside and the clear water chamber of film wire connect, and pillar putamina top is clear It is concentrated water chamber on the outside of water cavity, the side of concentrated water chamber is provided concentrated water spout, clean water outlet, big hole post are set up out at the top of clear water chamber The film wire of the bottom head of formula hollow membrane perineurium and aperture pillar hollow membrane perineurium is closed, macropore pillar hollow membrane perineurium top envelope The both ends end socket of the outside setting capping of head, macropore pillar hollow membrane perineurium and aperture pillar hollow membrane perineurium is integrally fixed to be encapsulated Be individually encapsulated or the end socket on macropore pillar hollow membrane perineurium top on the outside of water control valve, outlet water control valve door is provided Towards macropore pillar hollow membrane perineurium side setting more than macropore pillar hollow membrane perineurium diameter 1mm to 5mm pipe or with The identical pipe of macropore pillar hollow membrane perineurium top end socket cross-sectional profile, the top end socket of macropore pillar hollow membrane perineurium is than small The top end socket of hole pillar hollow membrane perineurium outwardly protrudes 2mm to 20mm, pipe or is sealed with macropore pillar hollow membrane perineurium top The identical pipe sleeve of head cross-sectional profile is mounted in the outside of macropore pillar hollow membrane perineurium protrusion part, the shaft of outlet water control valve door Across the side wall of clear water chamber, valve handle is arranged in the top of shaft；Across the hollow membrane module of the detachable immersion of the temperature difference include frame Frame, the hollow membrane component of macropore I-shaped, the hollow membrane component of aperture I-shaped, across the temperature difference hollow membrane component of bundled tube, water producing pipe control Valve processed, outlet water control valve door, water producing pipe, aeration tube；The rear side that the hollow membrane component of macropore I-shaped is arranged in frame, aperture The front side that the hollow membrane component of I-shaped is arranged in frame, water producing pipe control valve is arranged on water producing pipe, and macropore I-shaped is hollow The collector pipe of membrane component is connect in the rear end of water producing pipe control valve with water producing pipe, the collector pipe of the hollow membrane component of aperture I-shaped It is connect with water producing pipe in the front end of water producing pipe control valve, the hollow membrane component of macropore I-shaped and the hollow membrane component of aperture I-shaped Lower part aeration tube is set, or the hollow membrane component of across the temperature difference bundled tube is arranged in frame, and clear water chamber setting is restrained across the temperature difference The top of the hollow membrane component perineurium of formula, the clean water outlet that goes out on clear water chamber top are connect with water producing pipe, and water management is provided in clear water chamber Aeration tube is arranged in the lower part of valve, across the temperature difference hollow membrane component of bundled tube；Include across the detachable hard plate membrane module of the temperature difference Frame, macropore hard plate membrane component, aperture hard plate membrane component, water producing pipe control valve, water producing pipe, aeration tube；Macropore The rear side that hard plate membrane component is arranged in frame, the front side that aperture hard plate membrane component is arranged in frame, water producing pipe Upper setting water producing pipe control valve, the collector pipe of macropore hard plate membrane component is in the rear end of water producing pipe control valve and water producing pipe Connection, the collector pipe of aperture hard plate membrane component are connect in the front end of water producing pipe control valve with water producing pipe, and macropore hard is flat Aeration tube is arranged in the lower part of plate membrane component and aperture hard plate membrane component；It is discharged plate membrane group across the detachable soft side of the temperature difference Part includes frame, and the soft side of macropore is discharged flat membrane component, and the soft side of aperture is discharged flat membrane component, water producing pipe control valve, Water producing pipe, aeration tube；The rear side that the soft side water outlet flat membrane component of macropore is arranged in frame, the soft side of aperture is discharged plate membrane Water producing pipe control valve is arranged on water producing pipe for the front side that element is arranged in frame, the soft side water outlet flat membrane component of macropore Collector pipe is connect in the rear end of water producing pipe control valve with water producing pipe, and the collector pipe of the soft side water outlet flat membrane component of aperture is producing The front end of conduit control valve door is connect with water producing pipe, and the soft side water outlet flat membrane component of macropore and the soft side of aperture are discharged plate membrane Aeration tube is arranged in the lower part of element；Include frame across the detachable soft middle part water outlet plate film assembly of the temperature difference, goes out among macropore Water flexible slab membrane component, aperture centre are discharged flexible slab membrane component, and aeration tube, catchment tube control flap, collector pipe and production Water pipe, the top that water outlet flexible slab membrane component in macropore centre is arranged in frame, aperture centre is discharged flexible slab membrane component The lower part being arranged in frame, centre water outlet flexible slab membrane component tile vertically setting, collector pipe is from intermediate water outlet side by side The middle part of flexible slab membrane component passes through, and both ends are connect with water producing pipe, the collector pipe of water outlet flexible slab membrane component among macropore Both sides the tube control flap that catchments is respectively set, loose joint is set on the pipeline in the outside for the tube control flap that catchments, in macropore Between water outlet flexible slab membrane component and aperture among water outlet flexible slab membrane component lower part be arranged aeration tube.

The hollow membrane component of across the temperature difference bundled tube includes macropore bundled tube hollow membrane perineurium as described above, in aperture bundled tube Empty film perineurium, clear water chamber, outlet water control valve door or capping；Macropore bundled tube hollow membrane perineurium is arranged in inside, aperture bundled tube The setting of hollow membrane perineurium is on the outside or macropore bundled tube hollow membrane perineurium is arranged on the outside, and aperture bundled tube hollow membrane perineurium is set It sets around macropore bundled tube hollow membrane perineurium, clear water chamber is arranged on the top of perineurium, and the lower part of perineurium is end socket, bottom head Locate film wire top closure, outlet water control valve door or the upper end for covering the macropore bundled tube hollow membrane perineurium being arranged in clear water chamber, The side setting of outlet water control valve door towards macropore bundled tube hollow membrane perineurium is more than macropore bundled tube hollow membrane perineurium diameter 1mm Pipe or pipe identical with macropore bundled tube hollow membrane perineurium top end socket cross-sectional profile, macropore bundled tube to 5mm is hollow The upper end of film perineurium outwardly protrudes 2mm to 20mm than the upper end of aperture bundled tube hollow membrane perineurium, pipe or with macropore bundled tube End socket cross-sectional profile identical pipe sleeve in hollow membrane perineurium top protrudes the outside of part mounted in macropore bundled tube hollow membrane perineurium, The shaft of outlet water control valve door passes through the side wall of clear water chamber, the top setting valve handle or macropore bundled tube hollow membrane of shaft Setting capping on the outside of perineurium upper end.

The utility model is across the detachable filter membrane component of the temperature difference, advantage：The membrane module is suitble to sewage water temperature model It encloses extensively, combination is flexible, and control valve that can be by opening Inlet and outlet water or capping make the membrane component of macropore participate in producing water operation, make Membrane module can also have the flux met the requirements in low temperature, and the control valve of Inlet and outlet water is closed when water temperature is moderate or is incited somebody to action with capping The membrane component intake-outlet of macropore is closed, or the membrane component of dismounting macropore and the membrane component in its position installation aperture, makes water outlet Water quality is protected.

Description of the drawings

The utility model is described further across the detachable filter membrane component of the temperature difference in conjunction with the accompanying drawings and embodiments.

Fig. 1 is the utility model cuing open across the tubular membrane component that valve is arranged on the elbow of the detachable filter membrane component of the temperature difference Depending on schematic diagram.

Fig. 2 is the utility model across the tubular membrane component that cover board is arranged outside the film end socket of the detachable filter membrane component of the temperature difference The schematic diagram of section view.

Fig. 3 is the utility model across the transversal of elbow one end that valve is arranged on the elbow of the detachable filter membrane component of the temperature difference The schematic diagram in face.

Fig. 4 is the utility model across the cross section of the tubular membrane of the intermediate setting macroporous membrane of the detachable filter membrane component of the temperature difference Schematic diagram.

Fig. 5 is the utility model across the I-shaped hollow membrane that valve is arranged on the water producing pipe of the detachable filter membrane component of the temperature difference The schematic diagram of component.

Fig. 6 is the utility model across the hard plate film group that valve is arranged on the water producing pipe of the detachable filter membrane component of the temperature difference The schematic diagram of part eliminates the side plate around the side plate and aeration tube around frame in figure.

Fig. 7 is that the utility model catchments across the both sides setting that valve is arranged on the water producing pipe of the detachable filter membrane component of the temperature difference The schematic diagram of the flexible slab membrane module of pipe eliminates the side plate around the side plate and aeration tube around frame in figure.

Fig. 8 is signal of the utility model across the intermediate flexible slab membrane module being discharged of the detachable filter membrane component of the temperature difference Scheme, the side plate around the side plate and aeration tube around frame is eliminated in figure.

Fig. 9 is schematic diagram of the utility model across the section view of the column-type film components of the detachable filter membrane component of the temperature difference.

Figure 10 is section view of the utility model across the hollow membrane component of across the temperature difference bundled tube of the detachable filter membrane component of the temperature difference Schematic diagram.

Figure 11 is the schematic diagram of the section view of the pillar hollow membrane membrane module of the prior art.

Figure 12 is the schematic diagram of the section view of the tubular membrane component of the prior art.

Figure 13 is the schematic diagram of the hollow membrane module of prior art immersion I-shaped.

Figure 14 is the schematic diagram of prior art hard plate membrane module, eliminated in figure the side plate of frame films component ambient with And the side plate around aeration tube.

Figure 15 is the schematic diagram of the soft side water outlet plate film assembly of the prior art, and frame films component ambient is eliminated in figure Side plate around side plate and aeration tube.

Figure 16 is the schematic diagram of the soft middle part water outlet plate film assembly of the prior art, and frame films component ambient is eliminated in figure Side plate and aeration tube around side plate.

Figure 17 is the schematic diagram of the prior art tube bank hollow membrane component of formula.

1 in figure is macropore tubular membrane perineurium, and 2 be aperture tubular membrane perineurium, and 3 be tubular type putamina, and 4 be capping, and 5 are into and out Water control valve, 6 be outlet water control valve door, and 7 be elbow, and 8 be clip, and 9 be frame, and 10 be clean water outlet, and 11 be one word of macropore The hollow membrane component of formula, 12 be the hollow membrane component of aperture I-shaped, and 13 be collector pipe, and 14 be concentrated water chamber, and 15 be aeration tube, and 16 are Macropore hard plate membrane component, 17 be aperture hard plate membrane component, and 18 be the soft side water outlet flat membrane component of macropore, and 19 are The soft side of aperture is discharged flat membrane component, and 20 be that flexible slab membrane component is discharged among macropore, and 21 be that water outlet is soft among aperture Flat membrane component, 22 be water producing pipe control valve, and 23 be the tube control flap that catchments, and 24 be water producing pipe, and 25 be valve handle, 26 It is water outlet, 27 be support column, and 28 be pipe, and 29 be loose joint, and 30 be clear water chamber, and 31 be concentrated water spout, and 32 be in macropore pillar Empty film perineurium, 33 be aperture pillar hollow membrane perineurium, and 34 be pillar putamina, and 35 be air inlet, and 36 be water inlet, and 37 be macropore pipe Beam formula hollow membrane perineurium, 38 be aperture bundled tube hollow membrane perineurium, and 39 be tubular membrane perineurium, and 40 be the hollow membrane component of I-shaped, 41 be bundled tube hollow membrane perineurium, and 42 be intermediate water outlet flexible slab membrane component, and 43 be pillar hollow membrane perineurium, and 44 be soft side It is discharged flat membrane component, 45 be hard plate membrane component.

Specific implementation mode

According to the present invention will be described in detail below with reference to the accompanying drawings across the detachable filter membrane component of the temperature difference structure and feature：

Across the detachable filter membrane component of the temperature difference, including across the temperature difference detachable tubular membrane module, across the detachable column of the temperature difference The hollow membrane module of formula, across the hollow membrane module of the detachable immersion of the temperature difference, across the detachable hard plate membrane module of the temperature difference, across temperature The detachable soft side of difference is discharged plate film assembly and is discharged plate film assembly across the detachable soft middle part of the temperature difference；It is therein across Temperature difference detachable tubular membrane module, such as Fig. 1, Fig. 2, Fig. 3, shown in Fig. 4：Including tubular type putamina 3, macropore tubular membrane perineurium 1 is small Hole tubular membrane perineurium 2, steel wire spiral pipe or steel wire network pipe, inlet and outlet control valve door 5 or capping 4, elbow 7, clip 8；Macropore pipe End socket is arranged in formula film perineurium 1 and 2 both ends of aperture tubular membrane perineurium, and membrane tube inside penetrates through at end socket, closing on the outside of membrane tube, or big Hole tubular membrane perineurium 1 and setting steel wire spiral pipe or steel wire network pipe, steel wire spiral pipe or steel on the inside of the pipe of aperture tubular membrane perineurium 2 The outer diameter of wire mesh tube is identical as the internal diameter of macropore tubular membrane perineurium 1 and aperture tubular membrane perineurium 2；Macropore tubular membrane perineurium 1 is installed In the middle part of tubular type putamina 3 or the side of tubular type putamina 3, around be aperture tubular membrane perineurium 2, macropore tubular membrane perineurium 1 The outside setting capping 4 at both ends, the both ends end socket of macropore tubular membrane perineurium 1 and aperture tubular membrane perineurium 2 integrally fixed encapsulation or It is individually encapsulated, or inlet and outlet control valve door 5, inlet and outlet control valve is set at elbow corresponding with 1 both sides of macropore tubular membrane perineurium 7 Door 5 is more than the pipe 28 of 1 diameter 1mm to 5mm of macropore tubular membrane perineurium, pipe towards the side setting of macropore tubular membrane perineurium 1 28 outside is fixedly connected by support column 27 with 7 inner wall of elbow, or with macropore tubular membrane perineurium top end socket cross-sectional profile The both ends of identical pipe, macropore tubular membrane perineurium 1 outwardly protrude 2mm to 20mm than the both ends end socket of aperture tubular membrane perineurium 2, Pipe 28 or pipe sleeve identical with macropore tubular membrane perineurium top end socket cross-sectional profile are mounted in macropore tubular membrane perineurium protrusion The outside divided, the shaft of inlet and outlet control valve door 5 pass through the tube wall of elbow 7, the top of shaft that valve handle 25 is arranged；Across temperature The detachable hollow membrane module of pillar of difference, as shown in Figure 9：Including pillar putamina 34, macropore pillar hollow membrane perineurium 32, aperture Pillar hollow membrane perineurium 33, outlet water control valve door 6 or capping 4, clear water chamber 30 goes out clean water outlet, and concentrated water chamber 14 goes out concentrated water spout 31, Water inlet 36, clip 8；Macropore pillar hollow membrane perineurium 32 is mounted on the middle part of pillar putamina 34 or the side of pillar putamina 34, It is aperture pillar hollow membrane perineurium 33 around it, pillar putamina is vertically arranged, and air inlet 35, the side setting of lower part is arranged in lower part Clear water chamber 30 is arranged in the upper end of water inlet, film wire, and inside and the clear water chamber 30 of film wire connect, pillar putamina top clear water chamber 30 outside is concentrated water chamber 14, and the side of concentrated water chamber 14 is provided concentrated water spout 31, sets up out clean water outlet at the top of clear water chamber, greatly The film wire of the bottom head of hole pillar hollow membrane perineurium 32 and aperture pillar hollow membrane perineurium is closed, macropore pillar hollow membrane perineurium The outside setting capping 4 of 32 top end sockets, two end seals of macropore pillar hollow membrane perineurium 32 and aperture pillar hollow membrane perineurium 33 First body fixation is encapsulated or is individually encapsulated or the outside of the end socket on 32 top of macropore pillar hollow membrane perineurium setting outlet water control valve The side setting of door 6, outlet water control valve door 6 towards macropore pillar hollow membrane perineurium 32 is more than macropore pillar hollow membrane perineurium 32 directly The pipe 28 of diameter 1mm to 5mm or pipe identical with macropore pillar hollow membrane perineurium top end socket cross-sectional profile, in macropore pillar The top end socket of empty film perineurium 32 outwardly protrudes 2mm to 20mm, pipe 28 than the top end socket of aperture pillar hollow membrane perineurium 33 Or pipe sleeve identical with macropore pillar hollow membrane perineurium top end socket cross-sectional profile is protruded mounted in macropore pillar hollow membrane perineurium Partial outside, the shaft of outlet water control valve door 6 pass through the side wall of clear water chamber 30, the top of shaft that valve handle 25 is arranged；Across The hollow membrane module of the detachable immersion of the temperature difference, as shown in Figure 5：Including frame 9, the hollow membrane component 11 of macropore I-shaped, aperture The hollow membrane component 12 of I-shaped, across the temperature difference hollow membrane component of bundled tube, water producing pipe control valve 22, outlet water control valve door 6, production Water pipe 24, aeration tube 15；The rear side that the hollow membrane component of macropore I-shaped 11 is arranged in frame 9, the hollow membrane element of aperture I-shaped The front side in frame 9 is arranged in part 12, and water producing pipe control valve 22, the hollow membrane component of macropore I-shaped is arranged on water producing pipe 24 11 collector pipe 13 is connect in the rear end of water producing pipe control valve 22 with water producing pipe 24, the collection of the hollow membrane component of aperture I-shaped 12 Water pipe 13 is connect in the front end of water producing pipe control valve 22 with water producing pipe 24, the hollow membrane component 11 of macropore I-shaped and one word of aperture Aeration tube, or the hollow membrane component of across the temperature difference bundled tube is arranged in the lower part of the hollow membrane component of formula 12, as shown in Figure 10：It is arranged in frame In 9, clear water chamber is arranged on the top of the hollow membrane component perineurium of across the temperature difference bundled tube, and clear water chamber top goes out clean water outlet and water producing pipe 24 connect, and water control valve 6 is provided in clear water chamber, and aeration tube 15 is arranged in the lower part of across the temperature difference hollow membrane component of bundled tube；Across The detachable hard plate membrane module of the temperature difference, as shown in Figure 6：Including frame 9, macropore hard plate membrane component 16, aperture hard Flat membrane component 17, water producing pipe control valve 22, water producing pipe 24, aeration tube 15；Macropore hard plate membrane component 16 is arranged in frame The front side in frame 9 is arranged in rear side in frame 9, aperture hard plate membrane component 17, and setting water producing pipe controls on water producing pipe 24 The collector pipe 13 of valve 22, macropore hard plate membrane component 16 is connect in the rear end of water producing pipe control valve 22 with water producing pipe 24, The collector pipe 13 of aperture hard plate membrane component 17 is connect in the front end of water producing pipe control valve 22 with water producing pipe 24, macropore hard Aeration tube 15 is arranged in the lower part of flat membrane component 16 and aperture hard plate membrane component 17；It is discharged across the detachable soft side of the temperature difference Plate film assembly, as shown in Figure 7：Including frame 9, the soft side of macropore is discharged flat membrane component 18, and the soft side of aperture goes out level board Membrane component 19, water producing pipe control valve 22, water producing pipe 24, aeration tube 15；The soft side water outlet setting of flat membrane component 18 of macropore exists Rear side in frame 9, the soft side water outlet flat membrane component 19 of aperture are arranged the front side in frame 9, production are arranged on water producing pipe 24 Conduit control valve door 22, the collector pipe 13 of macropore soft side water outlet flat membrane component 18 the rear end of water producing pipe control valve 22 with Water producing pipe 24 connects, and the collector pipe 13 of the soft side water outlet flat membrane component 19 of aperture is in the front end of water producing pipe control valve 22 and production Water pipe 24 connects, and the lower part setting of the soft side water outlet flat membrane component 18 of macropore and the soft side water outlet flat membrane component 19 of aperture exposes Tracheae 15；It is discharged plate film assembly across the detachable soft middle part of the temperature difference, as shown in Figure 8：Including film frame 9, go out among macropore Water flexible slab membrane component 20, aperture centre water outlet flexible slab membrane component 21, aeration tube 15, catchment tube control flap 23, collection The top in frame 9 is arranged in water pipe 13 and water producing pipe 24, macropore centre water outlet flexible slab membrane component, and water outlet is soft among aperture Matter flat membrane component is arranged the lower part in frame 9, centre water outlet flexible slab membrane component tile vertically setting, collector pipe 13 from The middle part of intermediate water outlet flexible slab membrane component side by side passes through, and both ends are connect with water producing pipe 24, and water outlet is soft flat among macropore The tube control flap 23 that catchments is respectively set in the both sides of the collector pipe 13 of plate membrane component, is arranged on the pipeline in the outside of valve and lives 29 are connect, aeration is arranged in the lower part of water outlet flexible slab membrane component 20 and aperture centre water outlet flexible slab membrane component 21 among macropore Pipe 15.

Across the temperature difference hollow membrane component of bundled tube of setting as described above includes macropore bundled tube hollow membrane perineurium 37, small bore tube Beam formula hollow membrane perineurium 38, clear water chamber, outlet water control valve door 6 or capping 4；Including macropore bundled tube hollow membrane perineurium 37 is arranged Side, the setting of aperture bundled tube hollow membrane perineurium 38 is on the outside or macropore bundled tube hollow membrane perineurium 37 is arranged on the outside, small bore tube Beam formula hollow membrane perineurium 38 is arranged around macropore bundled tube hollow membrane perineurium, and clear water chamber is arranged on the top of perineurium, perineurium Lower part is end socket, film wire top closure at bottom head, the macropore pipes that outlet water control valve door 6 or capping 4 are arranged in clear water chamber The side setting on the top of beam formula hollow membrane perineurium 37, outlet water control valve door 6 towards macropore bundled tube hollow membrane perineurium 37 is more than The pipe 28 of 37 diameter 1mm to 5mm of macropore bundled tube hollow membrane perineurium is horizontal with macropore bundled tube hollow membrane perineurium top end socket The identical pipe of cross-sectional shape, the upper end of macropore bundled tube hollow membrane perineurium 37 than aperture bundled tube hollow membrane perineurium 38 upper end to Outer protrusion 2mm to 20mm, pipe 28 or pipe sleeve identical with macropore bundled tube hollow membrane perineurium top end socket cross-sectional profile dress The outside of part is protruded in macropore bundled tube hollow membrane perineurium 37, the shaft of outlet water control valve door 6 passes through the side wall of clear water chamber, axis Setting capping 4 on the outside of the top setting valve handle 25 of bar or 37 upper end of macropore bundled tube hollow membrane perineurium.

According to the present invention will be described in detail below with reference to the accompanying drawings across the detachable filter membrane component of the temperature difference principle and operational process：

Embodiment one

Application of the utility model across the tubular membrane component of the detachable filter membrane component of the temperature difference：

When 20 DEG C to 100 DEG C of water temperature, filter membrane normally produces water operation, and the capping 4 of 1 Inlet and outlet water side of macropore tubular membrane perineurium will be big Tubular membrane perineurium 1 Inlet and outlet water passage plugging in hole makes the membrane tube of macropore tubular membrane perineurium 1 close, or closes macropore tubular membrane perineurium 1 Inlet and outlet control valve door 5 on the elbow 7 of Inlet and outlet water side, sewage pass through out of aperture tubular membrane perineurium 2 membrane tube, and production water passes through Membrane tube enters on the outside of membrane tube between tubular type putamina 3, is flowed out by the water outlet 26 on putamina, aperture tubular membrane is to pollutant Rejection is high, and production water effect is good, in order to reach higher water yield, can also dismantle macropore tubular membrane perineurium 1 from putamina Get off, be placed in clear water or maintain and preserved in liquid, water temperature is reinstalled again when being higher than 5 DEG C of cryogenic conditions less than 20 DEG C to be made With, the aperture tubular membrane perineurium 2 of same diameter and length is installed after macropore tubular membrane perineurium 1 on its position under dismantling, it is new to pacify The both ends of the perineurium of dress are fixedly connected with the both ends of the perineurium of surrounding.

When water temperature is higher than 5 DEG C less than 20 DEG C, filter membrane low temperature produces water operation, by the envelope of 1 Inlet and outlet water side of macropore tubular membrane perineurium Lid 4 removes, and so that the membrane tube both sides of macropore tubular membrane perineurium 1 is opened wide, or open the elbow 7 of 1 Inlet and outlet water side of macropore tubular membrane perineurium On inlet and outlet control valve door 5, sewage passes through out of macropore tubular membrane perineurium 1 and aperture tubular membrane perineurium 2 membrane tube simultaneously, low Aperture tubular membrane water yield declines to a great extent under warm environment, is unable to reach the requirement of the water yield of sewage disposal system, and macroporous membrane exists Water yield is several times to tens times of small pore membrane under equal area, but it is low to the rejection of pollutant, and production water effect is bad, greatly Pore membrane and small pore membrane are used cooperatively, and producing water water quality is between macroporous membrane and small pore membrane, although producing water water quality is not as good as small pore membrane Producing water water quality, but it is an advantage over the water outlet of sedimentation basin and quartz filter, sewage is flowed from the inside of membrane tube, and production water passes through membrane tube On the outside of into membrane tube between putamina, flowed out by the water outlet 26 on putamina.

Embodiment two

Application of the utility model across the hollow membrane module of pillar of the detachable filter membrane component of the temperature difference：

When 20 DEG C to 100 DEG C of water temperature, filter membrane normally produces water operation, the capping 4 of 32 water outlet side of macropore pillar hollow membrane perineurium Macropore pillar hollow membrane perineurium exhalant canal is blocked, the membrane tube of macropore pillar hollow membrane perineurium 32 is made to close, or closes macropore Outlet water control valve door 6 in the clear water chamber 30 of pillar hollow membrane perineurium water outlet side, sewage from 34 lower part side of pillar putamina into The mouth of a river enters in shell, passes through on the outside of the film wire of aperture pillar hollow membrane perineurium 33, and production water enters across film wire on the inside of film wire, leads to The outflow of clean water outlet 10 is crossed out, concentrated water enters the concentrated water chamber 14 on pillar putamina top, goes out concentrated water spout from pillar putamina top side 31 outflows, aperture pillar hollow membrane are high to the rejection of pollutant, and production water effect is good, in order to reach higher water yield, also may be used It to disassemble macropore pillar hollow membrane perineurium from putamina, is placed in clear water or maintains and preserved in liquid, water temperature is less than 20 It reinstalls to use when DEG C being higher than 5 DEG C of cryogenic conditions, is installed on its position after dismantling lower macropore pillar hollow membrane perineurium again The aperture pillar hollow membrane perineurium of same diameter and length, the perineurium newly installed are fixedly connected with the both ends of the perineurium of surrounding.

When water temperature is higher than 5 DEG C less than 20 DEG C, filter membrane low temperature produces water operation, by the envelope of macropore pillar hollow membrane perineurium water outlet side Lid 4 remove, or open macropore pillar hollow membrane perineurium water outlet side the outlet water control valve door 6 gone out in clear water chamber, sewage simultaneously from The film wire of macropore pillar hollow membrane perineurium and aperture pillar hollow membrane perineurium passes through, and production water enters across film wire on the inside of film wire, leads to The outflow of clean water outlet 10 is crossed out, concentrated water is flowed out from the concentrated water spout 31 that goes out of pillar putamina top side, and macroporous membrane and the cooperation of small pore membrane make With, producing water water quality is between macroporous membrane and small pore membrane producing water water quality, although producing water water quality is not so good as the producing water water quality of small pore membrane, It is an advantage over the water outlet of sedimentation basin and quartz filter.

Embodiment three

The utility model is soft across the immersion hollow membrane and hard plate film of the detachable filter membrane component of the temperature difference and side water outlet The application of matter plate film assembly：

When 20 DEG C to 100 DEG C of water temperature, filter membrane normally produces water operation, closes the water producing pipe control valve 22 on water producing pipe 24, The macropore membrane component of 9 rear end of frame is set to be not involved in production water operation, the production water operation of aperture membrane component, can also to ensure producing water water quality The macropore membrane component of 9 rear end of frame is disassembled, is placed in clear water or maintains and preserved in liquid, water temperature is higher than 5 less than 20 DEG C DEG C cryogenic conditions when reinstall to use again, the small of same appearance and size is installed on its position after dismantling lower macropore membrane component Hole membrane component opens the water producing pipe control valve 22 on water producing pipe 24, makes the small of the aperture membrane component newly installed and 9 front end of frame Hole membrane component produces water operation jointly, to increase water yield.

When water temperature is higher than 5 DEG C less than 20 DEG C, filter membrane low temperature produces water operation, opens the water producing pipe control valve on water producing pipe 24 22, so that the macropore membrane component of 9 rear end of frame is produced water operation jointly with aperture membrane component.

Example IV

Application of the utility model across the intermediate water outlet flexible slab membrane module of the detachable filter membrane component of the temperature difference：

When 20 DEG C to 100 DEG C of water temperature, filter membrane normally produces water operation, closes 20 liang of water outlet flexible slab membrane component among macropore The tube control flap 23 that catchments on side collector pipe 13 makes water outlet flexible slab membrane component 20 among macropore be not involved in production water operation, Water outlet flexible slab membrane component 21 produces water operation to ensure producing water water quality among aperture, can also will be discharged among macropore soft flat Plate membrane component 20 disassembles, and is placed in clear water or maintains and is preserved in liquid, when water temperature is higher than 5 DEG C of cryogenic conditions less than 20 DEG C It reinstalls to use again, dismantles and same appearance and size is installed on its position after water outlet flexible slab membrane component 20 among lower macropore Aperture among water outlet flexible slab membrane component 21, make water outlet flexible slab membrane component 21 and frame 9 among the aperture newly installed The production water operation jointly of water outlet flexible slab membrane component 21 among interior original aperture, to increase water yield.

When water temperature is higher than 5 DEG C less than 20 DEG C, filter membrane low temperature produces water operation, opens and is discharged flexible slab membrane component among macropore The tube control flap 23 that catchments on 20 both sides collector pipes 13 makes to be discharged flexible slab membrane component 20 among macropore and among aperture go out Water flexible slab membrane component produces water operation jointly.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these change The scope of protection of the utility model is also should be regarded as into retouching.

Claims (2)

1. The improvement to membrane bioreactor filter membrane equipment 1. across the detachable filter membrane component of the temperature difference, mainly by film wire, membrane tube or Diaphragm is formed with frame or putamina；It is characterized in that, its structure includes across the temperature difference detachable tubular membrane module, it is removable across the temperature difference The hollow membrane module of formula pillar is unloaded, across the hollow membrane module of the detachable immersion of the temperature difference, across the detachable hard plate film group of the temperature difference Part is discharged plate film assembly across the detachable soft side water outlet plate film assembly of the temperature difference and across the detachable soft middle part of the temperature difference； Across the temperature difference detachable tubular membrane module therein includes tubular type putamina, macropore tubular membrane perineurium, aperture tubular membrane perineurium, steel wire Helix tube or steel wire network pipe, inlet and outlet control valve door or capping, elbow, clip；Macropore tubular membrane perineurium and aperture tubular membrane film End socket is arranged in beam both ends, and membrane tube inside penetrates through at end socket, closing on the outside of membrane tube, or in macropore tubular membrane perineurium and aperture tubular membrane The outer diameter and macropore tubular membrane film of setting steel wire spiral pipe or steel wire network pipe on the inside of the pipe of perineurium, steel wire spiral pipe or steel wire network pipe Beam is identical as the internal diameter of aperture tubular membrane perineurium；Macropore tubular membrane perineurium be mounted on tubular type putamina middle part or tubular type putamina one Side, around be aperture tubular membrane perineurium, the outside setting capping at the both ends of macropore tubular membrane perineurium, macropore tubular membrane perineurium with The both ends end socket of aperture tubular membrane perineurium is integrally fixed to be encapsulated or is individually encapsulated, or corresponding with macropore tubular membrane perineurium both sides curved Inlet and outlet control valve door is set at head, and the side setting of inlet and outlet control valve door towards macropore tubular membrane perineurium is more than macropore tubular type The outside of the pipe of film perineurium diameter 1mm to 5mm, pipe is fixedly connected by support column with elbow interior wall, or with macropore tubular type The identical pipe of film perineurium top end socket cross-sectional profile, two end seals of the both ends of macropore tubular membrane perineurium than aperture tubular membrane perineurium Head outwardly protrudes 2mm to 20mm, pipe or pipe sleeve identical with macropore tubular membrane perineurium top end socket cross-sectional profile mounted in big The outside of hole tubular membrane perineurium protrusion part, the shaft of inlet and outlet control valve door pass through the tube wall of elbow, the top setting of shaft Valve handle；Across the hollow membrane module of the detachable pillar of the temperature difference include pillar putamina, macropore pillar hollow membrane perineurium, aperture pillar Hollow membrane perineurium, outlet water control valve door or capping, clear water chamber, go out clean water outlet, and concentrated water chamber goes out concentrated water spout, water inlet, clip；Greatly Hole pillar hollow membrane perineurium be mounted on pillar putamina middle part or pillar putamina side, around be aperture pillar hollow membrane film Beam, pillar putamina are vertically arranged, and air inlet is arranged in lower part, and water inlet is arranged in the side of lower part, and clear water chamber is arranged in the upper end of film wire, The inside of film wire is connected with clear water chamber, is concentrated water chamber, the side setting of concentrated water chamber on the outside of the clear water chamber of pillar putamina top Go out concentrated water spout, sets up out clean water outlet at the top of clear water chamber, macropore pillar hollow membrane perineurium and aperture pillar hollow membrane perineurium The film wire of bottom head is closed, the outside setting capping of macropore pillar hollow membrane perineurium top end socket, macropore pillar hollow membrane film The both ends end socket of beam and aperture pillar hollow membrane perineurium integrally fixed encapsulation be individually encapsulated or macropore pillar hollow membrane perineurium on Water control valve is provided on the outside of the end socket in portion, the side setting of outlet water control valve door towards macropore pillar hollow membrane perineurium is big In macropore pillar hollow membrane perineurium diameter 1mm to 5mm pipe or with outside the end socket cross section of macropore pillar hollow membrane perineurium top The top end socket of the identical pipe of shape, macropore pillar hollow membrane perineurium is outwardly protruded than the top end socket of aperture pillar hollow membrane perineurium 2mm to 20mm, pipe or pipe sleeve identical with macropore pillar hollow membrane perineurium top end socket cross-sectional profile are mounted in macropore pillar Hollow membrane perineurium protrudes the outside of part, and the shaft of outlet water control valve door passes through the side wall of clear water chamber, the top of shaft that valve is arranged Door handle；Across the hollow membrane module of the detachable immersion of the temperature difference include frame, the hollow membrane component of macropore I-shaped, aperture I-shaped Hollow membrane component, across the temperature difference hollow membrane component of bundled tube, water producing pipe control valve, outlet water control valve door, water producing pipe, aeration tube； The rear side that the hollow membrane component of macropore I-shaped is arranged in frame, before the hollow membrane component of aperture I-shaped is arranged in frame Water producing pipe control valve is arranged on water producing pipe for side, and the collector pipe of the hollow membrane component of macropore I-shaped is in water producing pipe control valve Rear end is connect with water producing pipe, and the collector pipe of the hollow membrane component of aperture I-shaped connects in the front end of water producing pipe control valve and water producing pipe It connects, aeration tube, or across the temperature difference bundled tube is arranged in the lower part of the hollow membrane component of macropore I-shaped and the hollow membrane component of aperture I-shaped Hollow membrane component is arranged in frame, and clear water chamber is arranged on the top of the hollow membrane component perineurium of across the temperature difference bundled tube, clear water chamber The clean water outlet that goes out in portion is connect with water producing pipe, is provided water control valve in clear water chamber, under across the temperature difference hollow membrane component of bundled tube Aeration tube is arranged in portion；Across the detachable hard plate membrane module of the temperature difference include frame, macropore hard plate membrane component, aperture hard Flat membrane component, water producing pipe control valve, water producing pipe, aeration tube；The rear side that macropore hard plate membrane component is arranged in frame, Water producing pipe control valve, macropore hard plate are arranged on water producing pipe for the front side that aperture hard plate membrane component is arranged in frame The collector pipe of membrane component is connect in the rear end of water producing pipe control valve with water producing pipe, and the collector pipe of aperture hard plate membrane component exists The front end of water producing pipe control valve is connect with water producing pipe, the lower part of macropore hard plate membrane component and aperture hard plate membrane component Aeration tube is set；Include frame across the detachable soft side water outlet plate film assembly of the temperature difference, the soft side of macropore is discharged flat membrane Part, the soft side of aperture are discharged flat membrane component, water producing pipe control valve, water producing pipe, aeration tube；The soft side of macropore is discharged plate membrane The rear side that element is arranged in frame, the soft side of aperture are discharged the front side that flat membrane component is arranged in frame, are set on water producing pipe Water producing pipe control valve is set, the collector pipe of the soft side water outlet flat membrane component of macropore is in the rear end of water producing pipe control valve and production water Pipe connects, and the collector pipe of the soft side water outlet flat membrane component of aperture is connect in the front end of water producing pipe control valve with water producing pipe, greatly Aeration tube is arranged in the lower part of the soft side water outlet flat membrane component in hole and the soft side water outlet flat membrane component of aperture；It is detachable across the temperature difference The soft middle part water outlet plate film assembly of formula includes frame, flexible slab membrane component is discharged among macropore, water outlet is soft among aperture Flat membrane component, aeration tube, catchment tube control flap, collector pipe and water producing pipe, and water outlet flexible slab membrane component is set among macropore The top in frame is set, the lower part that flexible slab membrane component is arranged in frame is discharged among aperture, centre water outlet is soft flat Plate membrane component tile vertically is arranged, and collector pipe is passed through from the middle part of intermediate water outlet flexible slab membrane component side by side, both ends and production Water pipe connects, and the tube control flap that catchments is respectively set in the both sides of the collector pipe of water outlet flexible slab membrane component among macropore, Catchment tube control flap outside pipeline on loose joint is set, water outlet among water outlet flexible slab membrane component and aperture among macropore Aeration tube is arranged in the lower part of flexible slab membrane component.
2. 2. according to claim 1 across the detachable filter membrane component of the temperature difference, it is characterised in that：Across the temperature difference bundled tube Hollow membrane component includes macropore bundled tube hollow membrane perineurium, aperture bundled tube hollow membrane perineurium, clear water chamber, outlet water control valve door or Capping；The setting of macropore bundled tube hollow membrane perineurium is in inside, and the setting of aperture bundled tube hollow membrane perineurium is on the outside or macropore is restrained Formula hollow membrane perineurium is arranged on the outside, and aperture bundled tube hollow membrane perineurium is arranged around macropore bundled tube hollow membrane perineurium, clearly Water cavity is arranged on the top of perineurium, and the lower part of perineurium is end socket, film wire top closure, outlet water control valve door or envelope at bottom head Cover the upper end of macropore bundled tube hollow membrane perineurium being arranged in clear water chamber, outlet water control valve door is towards macropore bundled tube hollow membrane Perineurium side setting more than macropore bundled tube hollow membrane perineurium diameter 1mm to 5mm pipe or with macropore bundled tube hollow membrane The identical pipe of perineurium top end socket cross-sectional profile, the upper end of macropore bundled tube hollow membrane perineurium is than aperture bundled tube hollow membrane film The upper end of beam outwardly protrudes 2mm to 20mm, pipe or identical as macropore bundled tube hollow membrane perineurium top end socket cross-sectional profile Pipe sleeve mounted in the outside of macropore bundled tube hollow membrane perineurium protrusion part, the shaft of outlet water control valve door passes through the side of clear water chamber Wall, the top setting valve handle of shaft or the setting capping of macropore bundled tube hollow membrane perineurium upper end outside.