CN108114606A - Membrane filtration system - Google Patents
Membrane filtration system Download PDFInfo
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- CN108114606A CN108114606A CN201710087258.3A CN201710087258A CN108114606A CN 108114606 A CN108114606 A CN 108114606A CN 201710087258 A CN201710087258 A CN 201710087258A CN 108114606 A CN108114606 A CN 108114606A
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- 238000005374 membrane filtration Methods 0.000 title claims abstract description 32
- 239000012528 membrane Substances 0.000 claims abstract description 196
- 238000000926 separation method Methods 0.000 claims abstract description 177
- 238000007667 floating Methods 0.000 claims abstract description 71
- 239000000835 fiber Substances 0.000 claims abstract description 30
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 45
- 238000001914 filtration Methods 0.000 claims description 43
- 239000012510 hollow fiber Substances 0.000 claims description 6
- 230000033001 locomotion Effects 0.000 description 46
- 238000011084 recovery Methods 0.000 description 32
- 239000000706 filtrate Substances 0.000 description 31
- 238000000034 method Methods 0.000 description 22
- 239000010802 sludge Substances 0.000 description 18
- 230000008569 process Effects 0.000 description 14
- 230000000694 effects Effects 0.000 description 12
- 229910000679 solder Inorganic materials 0.000 description 10
- 230000008859 change Effects 0.000 description 9
- 229920001971 elastomer Polymers 0.000 description 9
- 238000005096 rolling process Methods 0.000 description 9
- 239000000806 elastomer Substances 0.000 description 8
- 238000012545 processing Methods 0.000 description 7
- 239000003344 environmental pollutant Substances 0.000 description 6
- 230000001965 increasing effect Effects 0.000 description 6
- 231100000719 pollutant Toxicity 0.000 description 6
- 230000002829 reductive effect Effects 0.000 description 6
- 230000005540 biological transmission Effects 0.000 description 5
- 230000003028 elevating effect Effects 0.000 description 5
- 238000005516 engineering process Methods 0.000 description 5
- 239000007788 liquid Substances 0.000 description 5
- 239000007787 solid Substances 0.000 description 5
- 238000006243 chemical reaction Methods 0.000 description 4
- 239000012141 concentrate Substances 0.000 description 4
- 230000001771 impaired effect Effects 0.000 description 4
- 238000003780 insertion Methods 0.000 description 4
- 230000037431 insertion Effects 0.000 description 4
- 238000009434 installation Methods 0.000 description 4
- 238000005259 measurement Methods 0.000 description 4
- 238000007789 sealing Methods 0.000 description 4
- 239000002351 wastewater Substances 0.000 description 4
- 230000009471 action Effects 0.000 description 3
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- 235000012489 doughnuts Nutrition 0.000 description 3
- 210000003361 heart septum Anatomy 0.000 description 3
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- 239000010865 sewage Substances 0.000 description 3
- IJGRMHOSHXDMSA-UHFFFAOYSA-N Atomic nitrogen Chemical compound N#N IJGRMHOSHXDMSA-UHFFFAOYSA-N 0.000 description 2
- 230000003321 amplification Effects 0.000 description 2
- 230000031018 biological processes and functions Effects 0.000 description 2
- 230000003139 buffering effect Effects 0.000 description 2
- 235000008504 concentrate Nutrition 0.000 description 2
- RKTYLMNFRDHKIL-UHFFFAOYSA-N copper;5,10,15,20-tetraphenylporphyrin-22,24-diide Chemical compound [Cu+2].C1=CC(C(=C2C=CC([N-]2)=C(C=2C=CC=CC=2)C=2C=CC(N=2)=C(C=2C=CC=CC=2)C2=CC=C3[N-]2)C=2C=CC=CC=2)=NC1=C3C1=CC=CC=C1 RKTYLMNFRDHKIL-UHFFFAOYSA-N 0.000 description 2
- 238000005265 energy consumption Methods 0.000 description 2
- 239000012530 fluid Substances 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- 238000001471 micro-filtration Methods 0.000 description 2
- 244000005700 microbiome Species 0.000 description 2
- 238000001728 nano-filtration Methods 0.000 description 2
- 238000003199 nucleic acid amplification method Methods 0.000 description 2
- 230000036961 partial effect Effects 0.000 description 2
- 238000011160 research Methods 0.000 description 2
- 238000001223 reverse osmosis Methods 0.000 description 2
- 230000008093 supporting effect Effects 0.000 description 2
- 238000000108 ultra-filtration Methods 0.000 description 2
- 238000005406 washing Methods 0.000 description 2
- VYPSYNLAJGMNEJ-UHFFFAOYSA-N Silicium dioxide Chemical compound O=[Si]=O VYPSYNLAJGMNEJ-UHFFFAOYSA-N 0.000 description 1
- 238000009825 accumulation Methods 0.000 description 1
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D65/00—Accessories or auxiliary operations, in general, for separation processes or apparatus using semi-permeable membranes
- B01D65/02—Membrane cleaning or sterilisation ; Membrane regeneration
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D63/00—Apparatus in general for separation processes using semi-permeable membranes
- B01D63/02—Hollow fibre modules
- B01D63/04—Hollow fibre modules comprising multiple hollow fibre assemblies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D65/00—Accessories or auxiliary operations, in general, for separation processes or apparatus using semi-permeable membranes
- B01D65/08—Prevention of membrane fouling or of concentration polarisation
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D69/00—Semi-permeable membranes for separation processes or apparatus characterised by their form, structure or properties; Manufacturing processes specially adapted therefor
- B01D69/08—Hollow fibre membranes
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F3/00—Biological treatment of water, waste water, or sewage
- C02F3/02—Aerobic processes
- C02F3/12—Activated sludge processes
- C02F3/1236—Particular type of activated sludge installations
- C02F3/1268—Membrane bioreactor systems
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2313/00—Details relating to membrane modules or apparatus
- B01D2313/02—Specific tightening or locking mechanisms
- B01D2313/025—Specific membrane holders
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2313/00—Details relating to membrane modules or apparatus
- B01D2313/14—Specific spacers
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2313/00—Details relating to membrane modules or apparatus
- B01D2313/20—Specific housing
- B01D2313/203—Open housings
- B01D2313/2031—Frame or cage-like structures
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2319/00—Membrane assemblies within one housing
- B01D2319/04—Elements in parallel
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D2321/00—Details relating to membrane cleaning, regeneration, sterilization or to the prevention of fouling
- B01D2321/20—By influencing the flow
- B01D2321/2033—By influencing the flow dynamically
- B01D2321/2058—By influencing the flow dynamically by vibration of the membrane, e.g. with an actuator
-
- C—CHEMISTRY; METALLURGY
- C02—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F—TREATMENT OF WATER, WASTE WATER, SEWAGE, OR SLUDGE
- C02F2303/00—Specific treatment goals
- C02F2303/16—Regeneration of sorbents, filters
-
- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
- Y02W10/00—Technologies for wastewater treatment
- Y02W10/10—Biological treatment of water, waste water, or sewage
Landscapes
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Life Sciences & Earth Sciences (AREA)
- Biodiversity & Conservation Biology (AREA)
- Microbiology (AREA)
- Hydrology & Water Resources (AREA)
- Engineering & Computer Science (AREA)
- Environmental & Geological Engineering (AREA)
- Water Supply & Treatment (AREA)
- Organic Chemistry (AREA)
- Separation Using Semi-Permeable Membranes (AREA)
Abstract
The present invention relates to membrane filtration systems, and seperation film is made to move back and forth, thus reduce energy using while effectively remove and be attached to the foreign matter of seperation film, the present invention provides membrane filtration system, and above-mentioned membrane filtration system includes:Treatment trough;Film braced frame is configured in above-mentioned treatment trough;Separation membrane module is installed on above-mentioned film braced frame;Reciprocating apparatus is connected with above-mentioned film braced frame, for moving back and forth above-mentioned film braced frame;And Mud up-floating portion, it is configured at the lower end of above-mentioned film braced frame, make the Mud up-floating for being piled up in above-mentioned treatment trough, above-mentioned separation membrane module includes upper frame, lower frame and hollow-fibre membrane, and above-mentioned hollow-fibre membrane is arranged between above-mentioned upper frame and lower frame.
Description
Technical field
The present invention relates to membrane filtration systems, in more detail, are related to by moving back and forth seperation film, and can reduce energy
The membrane filtration system for the foreign matter for being attached to seperation film is effectively removed while use.
Background technology
Typically, membrane technology is separated to utilize one in the isolation technics of the substance selective penetrated property matter of high molecular material
Kind, different from distillation technique, UF membrane process does not have phase change, therefore can save energy, and process is easy, therefore, device institute
The space occupied is small.Seperation film is developed around reverse osmosis membrane (reverse osmosis membrane), with ultrafiltration membrane
(ultrafiltration), microfiltration film (microfiltration), nano-filtration membrane (nanofiltration) etc. obtain
It is extensive to be applicable in.
It is to replace as a kind of membrane bioreactor (MBR, Membrane Bio Reactors) in membrane filtration system
The process that generation utilized seperation film as the precipitation tank that the final process step of biological processes process uses in the past.
This process has many advantages, such as follows:Higher maintain reactor in microorganism concn and improve organic matter,
The treatment effeciency of nitrogen component etc., and by seperation film removal suspended solid, microorganism etc., thus improve solid/liquid separation
The efficiency of (solid/liquid separation) solves the problems, such as previous biological processes process.
Compared with previous traditional type activated sludge (activated sludge) process, the needs of membrane bioreactor account for
Ground area is few, and the treatment effeciency of system is outstanding, also, in order to tackle because population increases and water demand caused by urbanization
Increase and gradually become stringent water quality control, and the demand of membrane bioreactor is estimated continues to increase.
Typically, with the previous film combination type processing system used as 2 secondary pollutant treatment facility subsequent handlings
Difference, immersion-type membrane biological reaction slot refer to separation membrane module direct impregnation carrying out solid-liquid point in 2 secondary pollutant reactive tanks
From reactive tank, this scheme can obtain while double effects perform the effect of simple separation of solid and liquid and can put forward water quality
Rise to the level of height processing.
On the other hand, it is biological anti-when separation membrane module is immersed in most membrane biological reaction slot (MBR) process
When answering in slot, provided other frame is arranged on the corresponding separation membrane module of processing capacity, as a result, based on seperation film
Filtering, catchmented by top according to the form of separation membrane module or process that both ends are catchmented, handled by filtering piping discharge
Water.
But in filter process, suspended solid etc. is attached to the surface of film, and the problem of the flowing of generation obstruction water,
With the generation of fouling membrane, the filter capacity of membrane bioreactor continuously decreases, and film perforation pressure increases, and the film being contaminated is first
There are problems that being difficult to wash.
It is the other countries of representative with Japan and Europe, long ago begins to the lower water waste water using previous seperation film
Treatment technology has carried out the research of the application process of variform, but the high costs such as expense and energy cost because of seperation film
The problem of problem and membrane closure etc., until the initial stage nineties also fails to be developed to the application technology of practicability, is applicable in only
It is confined to field or the special circumstances of academic research.
But since nineteen ninety is for initial stage, with carrying for the seperation films operational versions such as immersion-type, activated sludge mating type
Going out, the film blockage problem for the biggest obstacle being applicable in during this period as separation membrane technology scene also obtains sizable mitigation,
Above-mentioned seperation film operational version refers to form as described below:It, will be by aeration process in activated sludge reaction drill traverse stain seperation film
Upward water flow caused by the bubble of middle generation is used as the effective means for inhibiting seperation film blocking.
As described above, the concise mode of air has been used in order to be washed to the blocking of film in the past, it is concise as air
One kind in mode has used and has sprayed air in the outer wall of seperation film as described above with upward water flow and minimize the damage of film
And remove the mode for the sludge for being attached to film.
But this concise mode of air needs the gamut implementation in seperation film, thus it is suitable there are energy expenditure
The problem of big.
Prior art literature
Patent document
United States Patent (USP) grant number:US 8287733B1
The content of the invention
The present invention is as described above for solving the problems, such as, it is intended that one kind is provided by moving back and forth seperation film,
And can reduce energy using while effectively remove the membrane filtration system of the foreign matter for being attached to seperation film.
The present invention for solving the above problems provides membrane filtration system, and above-mentioned membrane filtration system includes:Treatment trough;Film branch
Support frame frame is configured in above-mentioned treatment trough;Separation membrane module is installed on above-mentioned film braced frame;Reciprocating apparatus, with above-mentioned film branch
Support frame frame connects, and moves back and forth above-mentioned film braced frame;And Mud up-floating portion, it is configured under above-mentioned film braced frame
End, makes the Mud up-floating for being piled up in above-mentioned treatment trough, and above-mentioned separation membrane module includes upper frame, lower frame and doughnut
Film, above-mentioned hollow-fibre membrane are arranged between above-mentioned upper frame and lower frame.
Water collecting part can be formed in the inside of above-mentioned upper frame, above-mentioned water collecting part and the hollow bulb of above-mentioned hollow-fibre membrane connect
It is logical.
Above-mentioned upper frame and lower frame may include to protrude the distance maintaining portion to be formed from frame.
Above-mentioned distance maintaining portion may include the engaging portion for being combined with other opposite distance maintaining portions.
Above-mentioned hollow-fibre membrane may be configured as forming multiple beams, and each hollow fiber membrane bundle is spaced from each other.
Above-mentioned separation membrane module can abreast be provided with multiple in above-mentioned film braced frame.
Also, the present invention may also include the filtering piping being configured in above-mentioned film braced frame, multiple above-mentioned seperation film moulds
Block is abreast combined with above-mentioned filtering piping.
At this point, can form multiple combined holes in above-mentioned filtering piping, above-mentioned combined hole is inserted into one end of above-mentioned upper frame,
Above-mentioned water collecting part and combinations of states of the above-mentioned filtering piping to connect.
Above-mentioned filtering piping is configured in the upper center portion of above-mentioned film braced frame, and multiple above-mentioned separation membrane modules are side by side
Ground and the both sides for being symmetrically incorporated into above-mentioned filtering piping.
The direction that above-mentioned filtering piping can be configured to above-mentioned film braced frame moves back and forth is vertical.
According to the present invention, seperation film is moved back and forth by reciprocating apparatus, thus effectively prevents or remove and be attached to separation
The foreign matter of film.
At this point, multiple separation membrane modules are in quadrangle in film braced frame, the dead zone in treatment trough can be made as a result,
(dead zone) is minimized, so as to improve the filtration treatment ability of lower water (or waste water).
Also, separation membrane module includes distance maintaining portion, can maintain predetermined distance between separation membrane module as a result, can subtract
The dirt (fouling) occurred during lacking water stagnation between various modules.
As a result, compared with the concise mode of previous air, there is the effect that can save energy used in washing seperation film.
The effect of the present invention is not limited to said effect, but should be understood to comprising can be from detailed description of the invention
Or the institute that the structure of the invention recorded in claim is derived is effective.
Description of the drawings
Fig. 1 is the stereogram for the embodiment for showing the membrane filtration system of the present invention.
Fig. 2 is the figure of the structure for the reciprocating apparatus for showing invention shown in FIG. 1.
Fig. 3 is the figure for the connecting rod for showing invention shown in Fig. 2.
Fig. 4 is the figure for the rotor for showing invention shown in Fig. 2.
Fig. 5 is the side view of the first embodiment for the skid for showing invention shown in FIG. 1.
Fig. 6 is the front section view of the invention shown in Fig. 5.
Fig. 7 a and Fig. 7 b are the figure of the second embodiment for the skid for showing invention shown in FIG. 1.
Fig. 8 a and Fig. 8 b are the figure of the 3rd embodiment for the skid for showing invention shown in FIG. 1.
Fig. 9 a and Fig. 9 b are the figure of the fourth embodiment for the skid for showing invention shown in FIG. 1.
Figure 10 is the side view for showing the blade part of the present invention.
Figure 11 is the operating status figure of invention shown in Fig. 10.
Figure 12 is the side view for showing the Mud up-floating device of the present invention.
Figure 13 is the side sectional view of the Mud up-floating device of the invention shown in Figure 12.
Figure 14 is the rearview of the Mud up-floating device of the invention shown in Figure 12.
Figure 15 is the operating status figure of the invention shown in Figure 12.
Figure 16 a and Figure 16 b are the figure for the embodiment for showing the measuring space unit of the present invention.
Figure 17 is the top view for the embodiment for showing the interval adjusting device of the present invention.
Figure 18 is the partial side elevation view of the first interval adjustment portion of the invention shown in Figure 17.
Figure 19 is the side view for the second interval adjustment portion for showing the invention shown in Figure 17.
Figure 20 is that the side of the linkage for Mud up-floating device and the second interval adjustment portion for showing the invention shown in Figure 19 is cutd open
View.
Figure 21 is the rearview of the linkage for Mud up-floating device and the second interval adjustment portion for showing the invention shown in Figure 20.
Figure 22 is the figure of the structure for the separation membrane module for showing invention shown in FIG. 1.
Figure 23 is the figure of the first embodiment for the film braced frame for showing invention shown in FIG. 1.
Figure 24 is the figure for the second embodiment for showing film braced frame.
Figure 25 is the figure for showing to calculate the method for the relaxation degree (looseness) of the present invention.
Figure 26 is the figure in the length adjustment portion that amplification shows first embodiment.
Figure 27 is the figure in the length adjustment portion that amplification shows second embodiment.
Figure 28 is the figure of the first embodiment for the filtrate discharge unit for showing invention shown in FIG. 1.
Figure 29 is the figure for the second embodiment for showing filtrate discharge unit.
Figure 30 is the figure of the configuration structure for the film braced frame for showing first embodiment.
Figure 31 is the figure of the configuration structure for the film braced frame for showing second embodiment.
Figure 32 is the figure of the configuration structure for the film braced frame for showing 3rd embodiment.
Figure 33 is the figure of the configuration structure for the film braced frame for showing fourth embodiment.
Reference sign
100:Membrane filtration system
200:Reciprocating apparatus 205:Driving portion
210:Motor 211:First pulley
212:Transmission belt 213:Second pulley
220:Connecting rod 221:Con-rod only
223:First connecting hole 225:Second connecting hole
230:Rotor 233:Connector
250:Toward complex frame
300:Treatment trough 310:Inflow entrance
320:Outflux
400:Mud up-floating portion
410:Blade part 411:Blade body
413:The floating wing 420:Mud up-floating device
421:First blade body 425:First sealing plate
430:Lifting unit 431:Oil hydraulic cylinder
433:Elevating lever 441:Second blade body
450:Elastomer 455:Second sealing plate
46:Buffer board 470:Third blade body
480:The floating wing
500:Skid
First embodiment
511:Guide rail 512:Stop section
513:Take turns block 514:Idler wheel
514a:Central wheel portion 514b:Rotation axis
514c:Sub- wheel portion 515:Rolling member
Second embodiment
521:Guide rail 522:Stop section
523:Take turns supporter 524:Cone pulley
524a:Rotation axis 525:Rolling member
3rd embodiment
531:Line slideway 532:Stop section
533:Moving beam 534:Ball bearing
Fourth embodiment
551:Guide rail 552:First protruding portion
561:Take turns block 571:Idler wheel
572:Second protruding portion 580:Subelement
581:First main part 582:First son wheel
583:Second main part 584:Second son wheel
600:Film braced frame 620:Subframe
640:Filter piping 642:Combined hole
700:Separation membrane module 710:Upper frame
711:Water collecting part 720:Lower frame
712、722:Distance maintaining portion 714:Tap
730:Hollow-fibre membrane
First embodiment
740:Length adjustment portion 742:Oil hydraulic cylinder
744:Calculating part 746:Driving portion
Second embodiment
1740:Length adjustment portion 1742:Axis
1744:Cam 1746:Motor
810:Measuring space unit 811:First measuring space sensor
813:Second measuring space sensor 820:First interval adjustment portion
820a:Mobile unit 821:Adjust cylinder
822:Movable block 823:Movable pulley
825:Moving track 826:First driving portion
827:First oil pressure amount calculating part 828:First interval calculation portion
829:First noncontacting proximity sensor 850:Second interval adjustment portion
851:Second noncontacting proximity sensor 852:Second interval calculation portion
853:Second oil pressure amount calculating part 854:Second driving portion
860:Interval adjusting device
First embodiment
900:Filtrate discharge unit 920:It catchments piping
940:First recovery tube 960:Second recovery tube
Second embodiment
1900:Filtrate discharge unit 1940:First recovery tube
1960:Second recovery tube
1000:Control unit 1200:Pollution measurement portion
1400:Adjusting control portion
Specific embodiment
Hereinafter, referring to figs. 1 to Figure 33, the preferred embodiment of the membrane filtration system of the present invention is illustrated.
Also, aftermentioned term is in view of the term that is defined after the function in the present invention, and above-mentioned term can be according to using
Personnel, the intention of operation personnel or convention and change, following embodiment be not intended to limit the present invention interest field, be only
The illustrative item for the structural element mentioned in the entitlement requests scope of the present invention.
The part unrelated with explanation is omitted in order to clearly state the present invention, throughout the specification, to identical or class
As structural element assign identical reference numeral.Throughout the specification, when a part " comprising " another part, as long as
There is no the record of special opposition, it is meant that other structures element can also be included, and be not meant as excluding other structures element.
First, with reference to Fig. 1, the embodiment of membrane filtration system 100 of the invention can include treatment trough 300, film branch substantially
Support frame frame 600, separation membrane module 700, reciprocating apparatus 200, Mud up-floating portion 400, skid 500 and filtrate discharge unit and structure
Into.
Also, according to additional embodiment, it may also include length adjustment portion 740, measuring space unit 810, interval adjusting
The structures such as device 860 and control unit 1000.
It present invention can be suitably applied to form a variety of devices of membrane filtration system, but in the present invention, especially it is defined in film life
Object reactor illustrates.
Above-mentioned treatment trough 300 can be in tank form, and above-mentioned treatment trough 300 may include the inflow entrance flowed into for waste water (or lower water)
The outflux 320 of 310 waste water (or lower water) processed with discharge.
At this time, it is preferable that above-mentioned inflow entrance 310 is formed to that inflow water is made to flow to the upside of above-mentioned treatment trough 300,
Thus the entrance flowing to the upper side from above-mentioned treatment trough 300 occurs, thus prevents and flows into water stagnation under treatment trough 300
Side, and be more efficiently filtered.Above-mentioned inflow entrance 310 can be formed on the upside of the one side of above-mentioned treatment trough 300 or set
When downside is to designing more favourable, the piping from the upward lateral bend in downside is formed as.
Above-mentioned film braced frame 600 is to be configured at the inside of above-mentioned treatment trough 300, is equipped with film (membrane) form
The part of separation membrane module 700.As described below, above-mentioned film braced frame 600 is connected with reciprocating apparatus 200, is reassembled by past
200 are put, above-mentioned film braced frame 600 integrally moves back and forth together with separation membrane module 700.
Above-mentioned reciprocating apparatus 200 may be configured as being connected with above-mentioned film braced frame 600, and make above-mentioned film braced frame
600 move back and forth.Above-mentioned reciprocating apparatus 200 may include toward complex frame 250 and driving portion 205.
Above-mentioned past complex frame 250 can be to be connected with above-mentioned film braced frame 600, and support above-mentioned film braced frame
600 part.Also, above-mentioned driving portion 205 may be configured as, and be configured at above-mentioned treatment trough 300, and with above-mentioned past complex frame 250
One side be connected, and moved above-mentioned past complex frame 250.Above-mentioned driving portion 205 may include motor 210, first pulley
211st, second pulley 213, rotor 230 and connecting rod 220.
First, said motor 210 is configured in the upper end one side of above-mentioned treatment trough 300.The axis of said motor 210 with it is above-mentioned
First pulley 211 is combined, and above-mentioned second pulley 213 is connected by transmission belt 212 with above-mentioned first pulley 211, so as to one
With rotation.
Wherein, above-mentioned rotor 230 is connected with the rotation axis of above-mentioned second pulley 213, is rotated, above-mentioned connecting rod 220
It may connect to above-mentioned rotor 230 and toward between complex frame 250, convert rotational motion into reciprocating motion.
In an embodiment of the present invention, multiple connections for being connected with above-mentioned connecting rod 220 can be processed in above-mentioned rotor 230
Part 223.Above-mentioned multiple connectors 233 can be configured apart from the center of above-mentioned rotor 230 with different interval.
It can be seen that with reference to Fig. 4,5 connectors be machined with different interval (radius) apart from the center of above-mentioned rotor 230
233.But be not limited to that this, according to the size of rotor 230, can configure multiple and can be configured by a variety of intervals.When
When user of service will adjust the reciprocal distance of above-mentioned past complex frame 250, change the position for connecting above-mentioned connecting rod 220.
For example, if user of service wants to reduce the reciprocal distance of above-mentioned past complex frame 250, above-mentioned connecting rod 220 is connected
In the relatively narrow connector 233a of the middle heart septum apart from above-mentioned rotor 230.In the case, due to by above-mentioned rotor
The radius of turn of above-mentioned connector 233a is small caused by 230 rotation, and therefore, the reciprocal distance of above-mentioned connecting rod 220 shortens, this
Reduce the reciprocal distance of above-mentioned past complex frame 250.
On the contrary, if user of service wants to increase the reciprocal distance of above-mentioned past complex frame 250, above-mentioned connecting rod 220 is connected
In the relatively large connector 233b of the middle heart septum apart from above-mentioned rotor 230.In the case, due to by above-mentioned rotor
The radius of turn of above-mentioned connector 233b is big caused by 230 rotation, and therefore, the reciprocal distance of above-mentioned connecting rod 220 is elongated, this
Make the reciprocal distance of above-mentioned past complex frame 250 increase.
Wherein, above-mentioned connecting rod 220 may include con-rod only 221, the first connecting hole 223 and the second connecting hole 225.Above-mentioned company
Bar body 221 can be with elongated state, and above-mentioned first connecting hole 223 can be the one side for being configured at above-mentioned con-rod only 221, and
With the part that the connector 233 of above-mentioned rotor 230 is combined, above-mentioned second connecting hole 225 can be to be configured at above-mentioned connecting rod sheet
The opposite side of body 221, and the part being combined with above-mentioned past complex frame 250.
At this point, in an embodiment of the present invention, above-mentioned first connecting hole 223 can be along the length of above-mentioned con-rod only 221
Direction is multiple to be equidistantly machined with.The length direction along above-mentioned con-rod only 221 is can be seen that with reference to Fig. 3, is machined with 4
A first connecting hole 223.But it is not limited thereto, according to the size of con-rod only 221, various numbers can be formed.Work as user
When member wants to adjust the reciprocal distance of above-mentioned past complex frame 250, change above-mentioned first connecting hole being connected with above-mentioned rotor 230
223 position.
For example, if user of service wants to reduce the reciprocal distance of above-mentioned past complex frame 250, in above-mentioned connecting rod 220
With the connector 233 of above-mentioned second connecting hole, 225 relatively near first connecting hole 223a fastening rotors 230.In this situation
Under, since the reciprocal distance of above-mentioned connecting rod 220 caused by the rotation as above-mentioned rotor 230 shortens, above-mentioned past complex frame
25 reciprocal distance is also reduced.
On the contrary, if user of service wants to increase the reciprocal distance of above-mentioned past complex frame 250, in above-mentioned connecting rod 220
The connector 233 of the first connecting hole 223b fastening rotor 230 relatively remote with above-mentioned second connecting hole 225.In this situation
Under, since the reciprocal distance of above-mentioned connecting rod 220 caused by the rotation as above-mentioned rotor 230 is elongated, above-mentioned past complex frame
250 reciprocal distance also increases.
At this point, if user of service connects the outermost connector 233b and above-mentioned first connecting hole 223b of above-mentioned rotor 230,
Then the reciprocal distance of connecting rod 220 as caused by the rotation of rotor 230 is maximum, therefore, can make the reciprocal distance toward complex frame 250
It maximizes.
Certainly, if user of service connects the connector 233a nearest apart from the center of above-mentioned rotor 230 and above-mentioned first
Hole 223a connections, then the reciprocal distance of connecting rod 220 as caused by the rotation of rotor 230 is minimum, therefore can make toward complex frame 250
Reciprocal distance minimize.
By above-mentioned reciprocating motion, seperation film is made to continue to flow during sludge filtration, sludge is made by inertia as a result,
It comes off, so as to carry out the washing of seperation film.As a result, the blocking of film can be prevented, the efficiency of system is maintained.
It, can be according to passing through cross-film differential pressure also, since the reciprocal distance toward complex frame 250 can be adjusted as described above
(TMP) pollution level of the separation membrane module 700 measured effectively adjusts reciprocal distance (amplitude), and can further save energy.
It is described in detail in following control method.
Then, above-mentioned skid 500 can be configured at above-mentioned treatment trough 300, and be contacted with above-mentioned reciprocating apparatus 200,
Guide the moving direction of above-mentioned film braced frame 600.In an embodiment of the present invention, above-mentioned skid 500 can be in 4 kinds of shapes
State.Hereinafter, illustrated by each embodiment.First embodiment
Fig. 5 and Fig. 6 is the figure of the first embodiment for the skid 500 for showing invention shown in FIG. 1.
With reference to Fig. 5 and Fig. 6, the first embodiment of above-mentioned skid 500 may include guide rail 511 and rolling member 515.On
State guide rail 511 can be fastened by bolts along the length direction of above-mentioned treatment trough 300 in both sides or solder joints and be configured with one
It is right, and section can be in square shape.
Above-mentioned rolling member 515 can be configured at the lower end of above-mentioned past complex frame 250, and be positioned over above-mentioned guide rail 511
Upper end.Above-mentioned rolling member 515 may include that taking turns block 513 and idler wheel 514, above-mentioned wheel block 513 can be fastened or welded by bolt 513a
The mode of engagement is connected with the lower end of above-mentioned past complex frame 250, and the rotation axis 514b of above-mentioned rollers 514 can be inserted into above-mentioned wheel
The through hole 513a of block 513, and so as to the mode of rotation is installed on above-mentioned wheel block 513.
Wherein, above-mentioned rollers 514 may include central wheel portion 514a and sub- wheel portion 514c.Central wheel portion 514a is to be placed on
Guide rail 511 is stated, and supports the part of the heavy burden of above-mentioned past complex frame 250., above-mentioned sub- wheel portion 514c is to extend to above-mentioned guide rail
The part of 511 side, so that above-mentioned do not depart from toward complex frame 250 during movement.As a result, in the process of reciprocating motion
In, above-mentioned rollers 514 do not depart from from above-mentioned guide rail 511, so as to than relatively safe operating.
The disengaging of above-mentioned rollers 514 in order to prevent can configure stop section 512 at the both ends of above-mentioned guide rail 511.
Second embodiment
Fig. 7 a and Fig. 7 b are the figure of the second embodiment for the skid 500 for showing invention shown in FIG. 1.
With reference to Fig. 7 a and Fig. 7 b, the second embodiment of above-mentioned skid 500 may include guide rail 521 and rolling member 525.
Above-mentioned guide rail 521 can be fastened by bolts along the length direction of above-mentioned treatment trough 300 in both sides or solder joints are configured with one
It is right, can be in form tapered form with from outside towards inside.
Above-mentioned rolling member 525 can be respectively arranged at the lower end both sides of above-mentioned past complex frame 250, and including taking turns supporter
523 and cone pulley 524.Above-mentioned wheel supporter 523 can be by bolt 523a or solder joints and the lower end with above-mentioned past complex frame 250
It is connected.Above-mentioned cone pulley 524 can make rotation axis 524a be inserted into through hole 523a and so as to the rotation of above-mentioned wheel supporter 523
Mode is connected, can be in the form of with taper is formed towards outside from center side.
The conical by its shape of above-mentioned guide rail 521 and the conical by its shape of above-mentioned rolling member 525 are corresponding, therefore, above-mentioned rolling
Component 525 is stably placed at the upper end of above-mentioned guide rail 521, and above-mentioned past complex frame 250 is made swimmingly to operate.At this point, in order to anti-
The only disengaging of above-mentioned cone pulley 524 can configure stop section 522 at the both ends of above-mentioned guide rail 521.
3rd embodiment
Fig. 8 a and Fig. 8 b are the figure of the 3rd embodiment for the skid 500 for showing invention shown in FIG. 1.
With reference to Fig. 8 a and Fig. 8 b, the 3rd embodiment of above-mentioned skid 500 may include line slideway 531, ball bearing 534
And moving beam 533.Above-mentioned line slideway 531 can be fastened by bolts along the length direction of above-mentioned treatment trough 300 in both sides or
Solder joints and be configured with a pair.At this point, it can configure ball at the position of the above-mentioned moving beam 533 of placement of above-mentioned line slideway 531
Bearing 534, so as to swimmingly move.
Above-mentioned moving beam 533 can be fastened by bolt 533a or solder joints are connected with the lower end of above-mentioned past complex frame 250
It connects, and can be placed in above-mentioned line slideway 531.If moving back and forth above-mentioned past complex frame 250 by above-mentioned driving portion 205,
Above-mentioned moving beam 533 moves on above-mentioned line slideway 531, and above-mentioned moving beam 533 is to be placed on above-mentioned line slideway 531 at this time
Inner side slot 531a state movement, therefore not to outside depart from, can steady running.
Moreover, above-mentioned moving beam 533 departs from more than length direction in order to prevent, it can be at the both ends of above-mentioned line slideway 531
Portion configures stop section 532.
Fourth embodiment
Fig. 9 a and Fig. 9 b are the figure of the fourth embodiment for the skid 500 for showing invention shown in FIG. 1.
With reference to Fig. 9 a and Fig. 9 b, the fourth embodiment of above-mentioned skid 500 may include guide rail 551, wheel block 561, idler wheel
571 and subelement 580.
Above-mentioned guide rail 551 can be alongst fastened by bolts in the upper end of above-mentioned treatment trough 300 in both sides 554 or
Solder joints and configure a pair.Above-mentioned guide rail 551 can be processed into H beam shapes, and the upper edge of above-mentioned guide rail 551 is by downwards
First protruding portion 552 of elongation is formed with linear along above-mentioned guide rail 551.
Above-mentioned wheel block 561 can be fastened by bolt 562 or solder joints are combined with the lower end of above-mentioned past complex frame 250,
Above-mentioned rollers 571 are so as to the mode of rotation is installed on above-mentioned wheel block 561.
Specifically, the rotation axis 573 of above-mentioned rollers 571 can be inserted into the through hole 566 of above-mentioned wheel block 561, by wheel cap 574
It carries out bolt 575 to fasten, so as to so as to the mode of rotation is connected with above-mentioned wheel block 561.At this point, to make above-mentioned rollers 571
Smooth rotation, bearing 565 can be configured in above-mentioned wheel block 561, and shaft-cup 563 can be fastened to fix by bolt 564.
Above-mentioned rollers 571 can be in circular plate shape, and the central shaft to above-mentioned rollers 571 is circumferentially formed in outer circumferential surface
The second prominent protruding portion 572.
Wherein, above-mentioned rollers 571 depart from from above-mentioned guide rail 551 in order to prevent, and above-mentioned subelement 580 is matched somebody with somebody in a manner of linkage
It is placed between above-mentioned rollers 571 and above-mentioned guide rail 551.Above-mentioned subelement 580 may include the first main part 581, the second main part
583rd, the first son wheel 582 and the second son wheel 584.
First, above-mentioned first main part 581 can be the portion for the first protruding portion of linear 552 for being inserted into above-mentioned guide rail 551
Point.The above-mentioned first son wheel 582 of configuration in the inside of above-mentioned first main part 581, above-mentioned first son wheel 582 along above-mentioned first are prominent
Go out portion 552 to roll and move along a straight line.
At this point, in the above-mentioned first son wheel 582, rotating wheel 582a is installed on wheel body 582b, and above-mentioned wheel body 582b leads to
It crosses bolt 582c fastenings and is fixed on the inside of above-mentioned first main part 581.
Afterwards, above-mentioned second main part 583 can be the part of the second protruding portion 572 of insertion above-mentioned rollers 571.Upper
The above-mentioned second son wheel 584 of inside configuration of the second main part 583 is stated, above-mentioned second son takes turns 584 rotations according to above-mentioned rollers 571
It is rolled on above-mentioned second protruding portion 572.
At this point, in the above-mentioned second son wheel 584, rotating wheel 584a is installed on wheel body 584b, and above-mentioned wheel body 584b leads to
Cross inside that is that bolt 584c is fastened and being fixed on above-mentioned second main part 583.
Above-mentioned first main part 581 and above-mentioned second main part 583 can fasten to be connected with each other by bolt 586.Herein
In the case of, above-mentioned first main part 581 and above-mentioned second main part 583 protrude above-mentioned first protruding portion 552 and above-mentioned second
Portion 572 is supported in a manner of being close to, therefore, above-mentioned rollers 571 can be close to above-mentioned guide rail 551 do not depart from it is mobile.
Based on embodiment as described above, skid 500 of the invention, in film braced frame 600 by above-mentioned reciprocal
When device 200 carries out linear motion, film braced frame 600 is enable more to be stablized and soft operating, contributes to energy
And reduce the raising of separation membrane fluidity.
Hereinafter, the Mud up-floating portion 400 of the present invention is illustrated.The present invention can not be obtained due to without using the concise mode of air
Must be based on the concise Mud up-floating effect of air, therefore including other Mud up-floating portion 400, thus prevent sludge at above-mentioned place
The inside for managing slot 300 is stagnated, is accumulated, and makes its floating, as a result, can the filtration easy to implement based on separation membrane module.
First embodiment
According to first embodiment, above-mentioned Mud up-floating portion 400 can be formed by blade part 410, with reference to Figure 10 and Figure 11 into
Row explanation.Figure 10 is the side view for showing the blade part of the present invention.Figure 11 is the operating status figure of invention shown in Fig. 10.
Above-mentioned blade part 410 is configured at the lower end of above-mentioned film braced frame 600, for making to be deposited in treatment trough 300
The Mud up-floating of lower part.Above-mentioned blade part 410 may include blade body 411 and the floating wing 413.
Above-mentioned blade body 411 is configured in the lower end of above-mentioned film braced frame 600, and can be along above-mentioned film braced frame
600 width is attached with multiple.In an embodiment of the present invention, can be seen that with reference to Figure 10 in film braced frame 600
Lower end is equipped with 3.The quantity of above-mentioned blade body 411 can be realized according to viscosity, sludge quantity of sludge etc. with different number.
For example, in the case of making the vortex that Mud up-floating needs strength due to the viscosity height of sludge, the amount of sludge accumulation
In the case of needing substantial amounts of float greatly, user of service can increase the blade body for the lower end for being attached to film braced frame 600
411 quantity.With the increase of the quantity of blade body 411, the quantity of the floating wing 413 combined with it can also increase therewith
Add.
The above-mentioned floating wing 413 can be connected in above-mentioned film with forming predetermined angular θ with the lower end of above-mentioned blade body 411
Make Mud up-floating during the reciprocating motion of braced frame 600.In an embodiment of the present invention, above-mentioned angle can be 150 degree, but
It is not limited thereto, can different angle be set to according to the thickness etc. of the distance away from 300 bottom for the treatment of trough, sludge blanket.
With reference to Figure 11, if above-mentioned film braced frame 600 moves back and forth, the above-mentioned floating wing 413 is supported to above-mentioned film
The vibration-direction of frame 600 is moved, and makes the sludge for being piled up in the lower end for the treatment of trough 300 that vortex occur.
As a result, sludge can float, filtered again by seperation film 700.
Second embodiment
On the other hand, according to second embodiment, above-mentioned Mud up-floating portion 400 can be formed by Mud up-floating device 420, reference
Figure 12 to Figure 15 is illustrated.Figure 12 is the side view for showing the Mud up-floating device of the present invention.Figure 13 is the hair shown in Figure 12
The side sectional view of bright Mud up-floating device.Figure 14 is the rearview of the Mud up-floating device of the invention shown in Figure 12.Figure 15
For the operating status figure of the invention shown in Figure 12.
To make to be deposited in the Mud up-floating of the lower part for the treatment of trough 300, above-mentioned Mud up-floating device 420 can be with so as to flexible
Mode be configured at the lower end of above-mentioned film braced frame 600.Above-mentioned Mud up-floating device 420 may include the first blade body 421,
Second blade body 441, third blade body 470, lifting unit 430, the floating wing 480, elastomer 450 and buffer board 460.
Above-mentioned first blade body 421 is mountable to the lower end of above-mentioned film braced frame 600.Moreover, above-mentioned second blade
Body 441 can be connected with the lower end of above-mentioned first blade body 421.Specifically, in above-mentioned first blade body 421
Portion forms the first space 421a, and a part for above-mentioned second blade body 441 is so as to the mode vertically moved configures
In above-mentioned first space 421a.At this point, the first lid 423 is fastened and fixed by bolt 424, and the inflow of fluid in order to prevent, first
Sealing plate 425 can be configured to the inside face for being close to above-mentioned first lid 423 and above-mentioned second blade body 441 exterior face it
Between.
Above-mentioned lifting unit 430 is configured at above-mentioned first blade body 421 and above-mentioned second blade sheet in a manner of linkage
It between body 441, can lift above-mentioned second blade body 441.Above-mentioned lifting unit 430 may include oil hydraulic cylinder 431 and elevating lever
433, above-mentioned oil hydraulic cylinder 431 can be fastened by bolts or solder joints and be fixed on the one side of above-mentioned first blade body 421.And
And above-mentioned elevating lever 433 can be fastened by bolts or solder joints and be connected with the bar of above-mentioned oil hydraulic cylinder 431, with reference to Figure 13
And Figure 14 can confirm, state of the elevating lever 433 along the length direction installation of above-mentioned second blade body 441.
If user of service drives above-mentioned oil hydraulic cylinder 431, above-mentioned elevating lever 433 vertically moves, and adjusts on above-mentioned
The upper-lower position of the floating wing 480.This enable user of service select to make the floating wing 480 not with the bottom impacts for the treatment of trough 300 and
The appropriate location that the sludge for being deposited in the bottom for the treatment of trough 300 can be made effectively to float.
Afterwards, above-mentioned third blade body 470 is connected with the lower end of above-mentioned second blade body 441, specifically, such as schemes
Shown in 13, a part for above-mentioned third blade body 470 is so as to the mode of lifting is configured in above-mentioned second blade body 441
The second space 441a of processing, in the inside face of above-mentioned second blade body 441 and the exterior face of above-mentioned third blade body 470
It is configurable to prevent the second sealing plate 455 that fluid flows into.
At this point, the above-mentioned floating wing 480 can be connected with the lower end of above-mentioned third blade body 470, in above-mentioned film branch
Make Mud up-floating during the reciprocating motion of support frame frame 600.Moreover, the above-mentioned floating wing 480 can be with above-mentioned third blade body 470
Form predetermined angular θ.In an embodiment of the present invention, it can be 150 degree, but be not limited thereto, it can be according to away from treatment trough 300
The distance of bottom, thickness of sludge blanket etc. set different angle.
Also, above-mentioned elastomer 450 be configured in above-mentioned second blade body 441 and above-mentioned third blade body 470 it
Between, to mitigate the impact being applied in during the bottom impacts of the above-mentioned floating wing 480 and treatment trough 300.Specifically, above-mentioned elastomer
450 are configured in the second space 441a of above-mentioned second blade body 441, and cover the second lid 443 and fastened by bolt 444
It is fixed.The downside of above-mentioned elastomer 450 is in contact with the upside of above-mentioned third blade body 470.
If the bottom connection of the above-mentioned floating wing 480 and treatment trough 300 touches, because collision, the above-mentioned floating wing 480 be applied in
The impact force in upper direction.At this point, by above-mentioned elastomer 450, above-mentioned third blade body 470 mitigates above-mentioned punching while rising
Hit power.
On the other hand, in order to mitigate the impact being applied in during the bottom impacts of the above-mentioned floating wing 480 and treatment trough 300,
Above-mentioned buffer board 460 can be configured in the end of the above-mentioned floating wing 480.Above-mentioned buffer board 460 can be by bullets such as rubber, silica gel, plastics
Property material is formed.
Its function is, before the bottom impacts of the above-mentioned floating wing 480 and treatment trough 300, above-mentioned buffer board 460 first by
It to impact, is bent due to elastic force, so as to first offset the impact force applied to the above-mentioned floating wing 480.
I.e., in an embodiment of the present invention, when the bottom impacts of the above-mentioned floating wing 480 and treatment trough 300, above-mentioned buffering
Plate 460 is implemented to mitigate for the first time by elastic material and to impact, makes above-mentioned third blade body 470 by above-mentioned elastomer 450
Rise, and secondary mitigation is implemented to impact.As a result, prevent the damage of the above-mentioned floating wing 480.
Figure 15 shows the operating status of above-mentioned Mud up-floating device 420, can confirm that out with reference to Figure 15, above-mentioned film support frame
During frame 600 moves back and forth, be installed on above-mentioned film braced frame 600 lower end Mud up-floating device 420 together into
Row moves back and forth and vortex occurs, so that the state of Mud up-floating.
At this point, even if the above-mentioned floating wing 480 is excessively close to the bottom of above-mentioned treatment trough 300, also due to passing through above-mentioned buffering
Plate 460 is implemented to mitigate for the first time to impact, by above-mentioned elastomer 450 to by the floating wing 480 to above-mentioned third blade body 470
The impact force of transmission implements secondary mitigation, it is therefore possible to prevent the equipment during operation is damaged.
Above-mentioned separation membrane module 700 can helically type (spiral wound), cast (tubular), hollow fiber type
Any one of (hollow fiber), plate-and-frame (plate and frame) form, in particular, in hollow fiber type, it is hollow
A diameter of 0.2~2mm of fiber and the hollow tubule form of hollow state, therefore, compared with other forms, the list of doughnut
The membrane area of position volume is very big, therefore with high productivity, so as to preferably be formed by hollow-fibre membrane.
It forms hollow fiber membrane bundle in one embodiment of this invention as a result, is consequently formed separation membrane module 700, it is hollow
What fibrous type seperation film can be sucked with the pressuring method that is filtered from the interior of hollow-fibre membrane and to its opposite direction
Mode uses, also, used activated sludge process uses the mode of hollow-fibre membrane in treated sewage and lower water, it may have
In the external mode (external type) cycled and the mode being directly immersed in module in biological reaction tank
(submergedtype).In the present embodiment, in a manner of internally sucking filtrate from the outside of above-mentioned separation membrane module 700
It states in treatment trough 300 and is illustrated on the basis of the mode of dipping separation membrane module 700 directly up.
With reference to Figure 22, above-mentioned separation membrane module 700 is described in detail, substantially, above-mentioned separation membrane module 700 may include top
Frame 710 and lower frame 720, between above-mentioned upper frame 710 and lower frame 720, multiple hollow-fibre membranes 730 are with shape
Bundles of mode is fixedly installed.
At this point, above-mentioned upper frame 710 and lower frame 720 can be asymmetrically formed by same shape, and can be in a variety of moulds
Sample.In the present embodiment, above-mentioned upper frame 710 and lower frame 720 can form long rectangular shape.
The both ends of above-mentioned hollow-fibre membrane 730 are separately fixed at above-mentioned upper frame 710 and lower frame 720, so that
The water collecting part 711 and the hollow bulb of each hollow-fibre membrane 730 that the Inner Constitution of above-mentioned upper frame 710 is spatially formed are mutual
The mode of connection is inserted into above-mentioned hollow-fibre membrane 730.The filter for being internally inhaled into and filtering from the outside of hollow-fibre membrane as a result,
Liquid is collected in above-mentioned water collecting part 711.Content related to this, it is following illustrate filtrate discharge unit when, be described in detail.
Also, in above-mentioned, two ends of hollow-fibre membrane are separately fixed at upper frame and lower frame, but according to another
Embodiment, hollow-fibre membrane can be also fixedly installed between upper frame and lower frame, and two ends of hollow-fibre membrane are equal
Upper frame is fixed on, the fixed link for being arranged at lower frame is wound and u-shaped state.For example, above-mentioned fixed link can be by
Bar in the intermediate space for having and can penetrating through hollow-fibre membrane is formed.
At this point, above-mentioned hollow-fibre membrane 730 densely be formed along the length direction of frame such as curtain, in addition, according to
Regular length is formed with forming beam, and each beam separates predetermined distance.This is because if seperation film alongst causes very much
It is thickly formed, then water can be stagnated, and thus dirt (fouling) aggravates, therefore setting is fraction of separated by a distance, and water is made swimmingly to flow
It is dynamic.
As described below, separation membrane module 700 as described above can be configured with more in the inside of above-mentioned film braced frame 600
It is a, at this point, the present invention is due to without using the concise mode of air, if the interval between each separation membrane module 700 it is narrow or
No, then water stagnation between various modules, is become more serious so as to dirt.Therefore, it is necessary to by reducing separation membrane module 700
Closeness so that the water is more swimmingly flowed between various modules.
As a result, as shown in figure 22, in order to make to maintain certain intervals between each separation membrane module 700, in above-mentioned upper box
Frame 710 and lower frame 720 can also be respectively formed distance maintaining portion.Specifically, can distinguish in the both sides of above-mentioned upper frame 710
Form more than one distance maintaining portion 712, the both sides of above-mentioned lower frame 720 similarly protrude respectively prominent certain length
Ground forms more than one distance maintaining portion 722.At this point, position and the lower frame in above-mentioned upper frame distance maintaining portion 712
The position in distance maintaining portion 722 is formed at same position and symmetrical, above-mentioned distance maintaining portion can with upper frame or under
The structure that portion's frame is formed as one or independently forms and combine.
In the present embodiment, above-mentioned distance maintaining portion 712,722 is in the both sides of upper frame 710 or lower frame 720 point
Not Xing Cheng there are two, and positioned at lengths of frame direction two ends.Also, above-mentioned distance maintaining portion 712,722 is from upper frame
The 710 or protrusion 1cm of lower frame 720, as a result, when configuring multiple separation membrane modules 700, opposite separation membrane module 700
Distance maintaining portion is docked, so as to which the alternate constant between modules maintains 2cm.
But it being not limited thereto, above-mentioned distance maintaining portion also can protrude more than 1cm from upper frame or lower frame, so as to
The interval of more than 2cm can be maintained between modules, even if being not formed at the both sides of each frame, be only formed at one side also without
Harm.At this point, in order to make between water do not stagnate in each separation membrane module 700, but swimmingly flow, between modules between
Every preferably more than 2cm, if but interval is excessive, the installation space of excessive separation membrane module, and filter efficiency can be occupied
It can reduce, therefore preferably in below 4cm.
Also, above-mentioned distance maintaining portion 712,722 may also include engaging portion so as to other opposite distance maintaining portions
Easily combine.For example, above-mentioned engaging portion can be formed by magnet, make to form S poles positioned at the distance maintaining portion of the one side of frame, make position
N poles are formed in the distance maintaining portion of opposite side, as a result, realizing mutual combination when configuring multiple separation membrane modules 700.
Even if above-mentioned separation membrane module 700 moves back and forth as a result, the interval between modules also can be firmly maintained.
Hereinafter, the film braced frame 600 and multiple separation membrane modules 700 for illustrating the present invention are arranged at above-mentioned film braced frame
The structure of 600 inside.
First embodiment
First, with reference to Figure 23, illustrate the film braced frame 600 of first embodiment and be configured at its internal separation membrane module
700 structure.As reference, in fig 23, in order to which the configuration structure of separation membrane module is effectively presented, show in a film branch
The inside of support frame frame configures the structure of 4 separation membrane modules, but is not limited thereto, also can be in the inside of a film braced frame
The dozens of separation membrane module more than 4 is configured, this is obvious.
In the present embodiment, above-mentioned film braced frame 600 can be in corner frame, and may include to set multiple seperation film moulds
The subframe 620 of block 700, above-mentioned subframe 620 are arranged at the downside of above-mentioned film braced frame 600.Above-mentioned multiple separation as a result,
Film module 700 can be combined using bolt with above-mentioned subframe 620 or the insertion of multiple separation membrane modules 700 is formed at sub- frame
The track of frame 620, is thus combined.Specifically, the lower frame 720 of above-mentioned separation membrane module is arranged at above-mentioned subframe 620
On, the upper frame 710 of above-mentioned separation membrane module is fixed on above-mentioned film braced frame 600 or is fixed on as subframe
Other frame.
But it is not limited thereto, above-mentioned separation membrane module 700 can be arranged at subframe 620 by a variety of methods, and
Above-mentioned multiple separation membrane modules 700 can also be directly arranged at above-mentioned film braced frame 600.
Above-mentioned subframe 620 can correspond to the bottom surfaces of above-mentioned film braced frame 600 and formed by dimetric plate or
Person is in above-mentioned along being abreast formed in the direction of the multiple separation membrane modules 700 of the inside of above-mentioned film braced frame 600 configuration
Multiple rod-shapes of the lower part of film braced frame 600.
Above-mentioned multiple separation membrane modules 700 can abreast be arranged at the i.e. above-mentioned sub- frame in inside of above-mentioned film braced frame 600
On frame 620, in the present embodiment, since each separation membrane module 700 is in long rectangular shape, it is as shown in figure 23, whole
The setting structure for the separation membrane module that body combines is rectangular or positive tetragonal shape.
Multiple film braced frames 600 are configured in the inside of above-mentioned treatment trough 300, as described above, separation membrane module 700 is whole
Thus body setting structure can densely configure separation membrane module 700, can make as a result, dead in above-mentioned treatment trough 300 in quadrangle
Area (dead zone) minimizes, so as to improve filtration treatment ability.But it is not limited thereto, the setting knot of separation membrane module
Structure can be in a variety of shapes.
At this point, since the upper frame 710 and lower frame 720 of above-mentioned separation membrane module are respectively formed with distance maintaining portion
712nd, 722, therefore, when abreast configuring above-mentioned multiple separation membrane modules 700, the alternate constant between modules.
Second embodiment
Afterwards, with reference to Figure 24, illustrate the film braced frame 600 of second embodiment and be configured at its internal separation membrane module
700 structure.
In the present embodiment, above-mentioned film braced frame 600 is in corner frame shape, and further includes and be formed at above-mentioned film support
The filtering piping 640 of the upside of frame 600.Specifically, above-mentioned filtering piping 640 is arranged in above-mentioned film braced frame 600
Upper side cross center.
And it is possible to it may also include to set the subframe of multiple separation membrane modules 700 identically with first embodiment
620, above-mentioned subframe 620 is generally positioned at the downside of above-mentioned film braced frame 600.
The combined hole 642 for being used for combining multiple separation membrane modules 700 is formed in the both sides of above-mentioned filtering piping 640, it is above-mentioned
Each combined hole 642 is combined with each upper frame 710 of separation membrane module, so that being formed at above-mentioned upper frame 710
Internal water collecting part 711 is connected with above-mentioned filtering piping 640.I.e., in the present embodiment, above-mentioned filtering piping 640 be configured to
The direction that above-mentioned past complex frame 250 moves back and forth is perpendicular, and multiple separation membrane modules 700 are symmetrically sideways abreast tied
It closes.
At this point, since the direction to move back and forth along above-mentioned past complex frame 250 continuously configures multiple film braced frames
600, therefore, for filtrate discharge unit installation space ensure wait construction convenients in terms of the considerations of, configure as in this embodiment
It is more preferred that the situation parallel with vibration-direction is configured to than above-mentioned filtering piping.
Above-mentioned filtering piping can be concentrated on by being collected in the filtrate of each water collecting part 711 in multiple separation membrane modules as a result,
640, it is described in detail below.Also, each lower frame 720 of above-mentioned separation membrane module 700 can utilize bolt with it is upper
The track that subframe 620 is combined or the insertion of multiple separation membrane modules 700 is formed to subframe 620 is stated, is thus mutually tied
It closes.But be not limited to that this, can set above-mentioned separation membrane module 700 by a variety of methods in subframe 620, and it is above-mentioned more
A separation membrane module 700 can also be directly arranged at above-mentioned film braced frame 600.
In the present embodiment, as shown in figure 24, the setting structure of the separation membrane module integrally combined is in tetragonal shape, with
First embodiment is identical, can densely configure separation membrane module 700, can make the dead zone in above-mentioned treatment trough 300 minimum as a result,
Change, so as to improve filtration treatment ability.
At this point, since the upper frame 710 and lower frame 720 in above-mentioned separation membrane module are respectively formed distance maintaining portion
712nd, 722, therefore, when abreast configuring multiple separation membrane modules 700, it can consistently maintain the interval of modules.
In addition, during the setting structure of above-mentioned separation membrane module is illustrated, tieed up between each separation membrane module 700
It holds and is illustrated on the basis of predetermined distance, but above-mentioned distance maintaining portion can also be only formed to the separation of the one side of frame
Film module, specifically distance maintaining portion is made only in left side and to form one group, thus the separation membrane module on right side ties up two
Every 2 separation membrane modules is made to maintain predetermined distance.Also, 3 separation membrane modules can also be formed a group, and make every 3
Module maintains predetermined distance, and this is obvious.
Do not make water stagnation as a result, between separation membrane module, and form finer and close seperation film, so as to improve filtering
Ability.
With the reciprocating motion that separation membrane module 700 is realized by above-mentioned reciprocating apparatus 200, have an effect in above-mentioned separation
The inertia (inertial force) of film module 700, above-mentioned inertia prevent seperation film surface attachment pollutant or from point
Surface removal pollutant from film.
At this point, it is prevented or removal effect maximization is, it is necessary to relaxation by seperation film to adhere to foreign matter based on inertia
Degree (looseness) maintains proper level.
If without the relaxation of above-mentioned separation membrane module 700, even if above-mentioned separation membrane module 700 is by above-mentioned film support frame
The reciprocating motion of frame 600 and move back and forth together, it is also difficult to assign inertia, thereby increases and it is possible to occur separation membrane module 700 be broken or by
The problem of damage, in addition in the case of overrelaxation, it is also difficult to inertia is assigned, and the reciprocal distance of separation membrane module 700 becomes larger,
So as to occupy very big installation space.
The length of above-mentioned hollow-fibre membrane 730 can be formed as a result, in above-mentioned upper frame 710 and lower frame 720
The distance between Lo plus value obtained by length as described below, i.e. more than above-mentioned distance Lo 0% and above-mentioned distance Lo's
Less than 10% length.I.e., it is possible to pair hollow-fibre membrane 730 being connected respectively with above-mentioned upper frame 710 and lower frame 720
Strand will not be applied in the state of drawing force maximum length (hereinafter referred to as " length of minimum separation film ") also assign 10% with
Under additional length, especially, it is preferable that assign 5% to 10% additional length.
Specifically, as shown in figure 25, it can make seperation film that the length of the maximum separation film of inertia occur by reciprocating motion
Lf, using the length, that is, between above-mentioned upper frame 710 and lower frame 720 of minimum separation film the Lo of distance up and down and point
Reciprocating motion length a from film module is calculated, and the relaxation degree (looseness) of above-mentioned separation membrane module 700 can be by maximum
It is worth obtained by the length Lf of the seperation film divided by length Lo of minimum separation film and determines.That is, the relaxation journey of above-mentioned separation membrane module 700
1 and below 1.1 should be more than by spending (looseness), especially preferably more than 1.05 and less than 1.1.
For example, if the reciprocating motion length a of above-mentioned separation membrane module 700 is 100mm, on the length Lo of minimum separation film is
The distance up and down stated between upper frame 710 and lower frame 720 is 500mm, then as shown in figure 26, by the property of triangle
Matter, the length Lf of maximum separation film can calculate 538.5mm, and relaxation degree can calculate 1.08 (exactly, 1.077), therefore
It is preferred.But if at this point, reciprocating motion length is 150mm, the length Lf of maximum separation film is 583.1mm, and relax journey
Degree is about 1.17 (exactly, 1.166), because more than 1.1, therefore not preferably.Reciprocating motion length or increasing can be reduced at this time
Add the length of minimum separation film.
Also, when the reciprocating motion length of above-mentioned separation membrane module 700 is 100mm, if the length Lo of minimum separation film
For 750mm, then the length Lf of the maximum separation film calculated is 776.2mm, and relaxation degree is equivalent to 1.03, if minimum separation film
Length Lo for 1000mm, then the length Lf of the maximum separation film calculated is 1019.8mm, and relaxation degree is approximately equivalent to 1.02,
Therefore it is suitable.
But as described above, when separation membrane module 700 reciprocating motion length be 100mm when, if the length of minimum separation film
Degree Lo is 1500mm, then the length Lf of the maximum separation film calculated is 1513.3mm, relaxation degree close to 1, therefore be difficult to
Seperation film assigns inertia, so as to not preferred, at this point, should further increase the reciprocating motion length of above-mentioned separation membrane module 700,
Or reduce the length Lo of minimum separation film.
As described above, during based on reduction or removal separation fouling membrane is moved back and forth, above-mentioned separation membrane module 700
Relaxation degree it is particularly important, additionally can include and above-mentioned separation membrane module is adjusted according to the reciprocating motion length of membrane filtration system
The length adjustment portion of 700 relaxation degree.
Above-mentioned length adjustment portion is formed as adjusting the i.e. above-mentioned upper frame 710 of length and lower frame of minimum separation film
Length between 720, and may also be formed as adjusting the length of seperation film itself, it is described in detail in the examples below.
First, reference Figure 26 illustrates the length adjustment portion 740 of first embodiment, in order to adjust above-mentioned 710 He of upper frame
Length between lower frame 720, above-mentioned length adjustment portion 740 are formed as the one side to being fixedly installed on separation membrane module 700
The subframe 620 of the film braced frame of i.e. above-mentioned lower frame 720 drive up and down.
Specifically, the above-mentioned length adjustment portion 740 of first embodiment can be formed from the oil of the lower section of above-mentioned subframe 620
Cylinder pressure 742 is formed, above-mentioned oil hydraulic cylinder 742 can be fastened by bolts or solder joints and be fixed on the lower section of above-mentioned subframe 620.
Above-mentioned oil hydraulic cylinder 742 can be formed with more than one in the lower part of above-mentioned subframe 620, according to quantity, be configured in
Appropriate position.In the present embodiment, 4 oil hydraulic cylinders 742 are configured at each vertex position in dimetric subframe 620.
If user of service drives above-mentioned oil hydraulic cylinder 742 as a result, consolidated in the upper frame 710 of above-mentioned separation membrane module
In the state of fixed, with the above-mentioned whole movement vertically of subframe 620, the lower frame 720 of above-mentioned separation membrane module
It integrally vertically moves, so as to adjust the length of minimum separation film.That is, if in the state of the length of seperation film is maintained
By the way that above-mentioned oil hydraulic cylinder 742 is driven to move above-mentioned 620 upward side of subframe, then above-mentioned lower frame 720 also upward side movement,
The distance between above-mentioned upper frame 710 is reduced, the length of minimum separation film is thus reduced, so as to increase above-mentioned seperation film mould
The relaxation degree of block 700.
If on the contrary, move downward above-mentioned subframe 620 by driving above-mentioned oil hydraulic cylinder 742, above-mentioned lower box
Frame 720 also moves downward, and increases the distance between above-mentioned upper frame 710, increases the length of minimum separation film as a result,
So as to reduce the relaxation degree of above-mentioned separation membrane module 700.
At this point, the action of above-mentioned oil hydraulic cylinder 742 can be realized by user of service, but it may also include calculating part 744 and driving
Portion 746 and automatically control the action of above-mentioned oil hydraulic cylinder, above-mentioned calculating part 744 is according to the reciprocating motion length of seperation film or reciprocal
Cycle calculates the length of the appropriate minimum separation film of the preferred loose degree based on seperation film, calculates above-mentioned subframe 620
The amount of moving up and down, the amount of moving up and down that above-mentioned driving portion 746 is calculated to the transmission of above-mentioned oil hydraulic cylinder 742 are driven.
Then, with reference to Figure 27, the length adjustment portion 1740 of second embodiment is illustrated, it is identical with first embodiment, in order to adjust
The length between above-mentioned upper frame 710 and lower frame 720 is saved, above-mentioned length adjustment portion 1740 is formed as in above-mentioned seperation film
The upper frame 710 of module is driven the position of above-mentioned lower frame 720, namely makes fixed setting up and down in the state of fixation
The subframe of the film braced frame of above-mentioned lower frame 720 drives about 620.
Specifically, the above-mentioned length adjustment portion 1740 of second embodiment may include:Axis 1742 is arranged at above-mentioned subframe
620 lower section;More than one cam 1744, with above-mentioned axis 1742 with reference to and can rotate integrally;And motor 1746, it is used for
The rotation of above-mentioned axis 1742.Said motor 1746 may be disposed at the inside of above-mentioned treatment trough 300, but may also set up in outside.
Above-mentioned multiple axis 1742 can be abreast formed in the lower part of above-mentioned subframe 620 it is multiple, in the present embodiment, with
The mode for being directed at the corner of above-mentioned subframe 620 is abreast formed with 2 axis opposite to each other.More than one cam 1744 is according to upper
The mode for stating the rotating integrated rotation of axis 1742 is combined with each axis.With the rotation of above-mentioned cam 1744, the radius of cam
Length changes, so as to which the height of above-mentioned lower frame 620 be adjusted.
At this point, the action of said motor 1746 can be realized by user of service, still, as in the first embodiment shown, can also wrap
It includes calculating part and driving portion carrys out automated execution, above-mentioned calculating part is used to calculate the amount of moving up and down of above-mentioned subframe 620, above-mentioned drive
The rotation that the amount of moving up and down calculated carrys out control shaft 1742 is transmitted to said motor 1746 in dynamic portion.
Also, although it is not shown, still, according to embodiment, above-mentioned length adjustment portion is formed as adjusting seperation film itself
Length, specifically, can be formed to wind and unclamp the winder of one end i.e. one end of hollow-fibre membrane of separation membrane module,
Come the length of the one end for winding or unclamping seperation film, thus adjusting overall separation film module.
According to embodiment, the present invention may also include measuring space unit 810 and interval adjusting device 820, in following implementation
Example is described in detail.
First embodiment
Figure 16 a and Figure 16 b are the figure for the embodiment for showing the measuring space unit of the present invention.
With reference to Figure 16 a and Figure 16 b, measuring space unit 810 of the invention can measure above-mentioned film braced frame 600 or above-mentioned
Interval between blade part 410 and above-mentioned treatment trough 300.
Above-mentioned measuring space unit 810 may include the first measuring space sensor 811 and the second measuring space sensor
813, above-mentioned first measuring space sensor 811 can be measure above-mentioned film braced frame 600 and 300 inner wall of above-mentioned treatment trough it
Between interval sensor, above-mentioned second measuring space sensor 813 can be to measure above-mentioned blade part 410 and above-mentioned processing
The sensor at the interval between 300 bottom of slot.
With reference to Figure 16 a, above-mentioned first measuring space sensor 811 is configured with one in the both sides of above-mentioned film braced frame 600
It is right, measure the interval between 300 inner wall of above-mentioned film braced frame 600 and above-mentioned treatment trough.
The situation at the interval that the sensor of opposite side is measured is relatively shorter than at the interval that the sensor of either side is measured
Under or in the case of less than the permission spacing value set, above-mentioned first measuring space sensor 811 is to user of service's
Controller transmits signal, at this point, user of service stops the driving of above-mentioned reciprocating apparatus 200 and then secondary to be set by bolt tight
Gu wait the right position of above-mentioned film braced frame 600 being connected with above-mentioned past complex frame 250, come prevent in treatment trough 300
The collision of wall.
Above-mentioned second measuring space sensor 813, which is can be seen that, with reference to Figure 16 b is configured at the upper of above-mentioned blade part 410
Floating 413 part of the wing.As above-mentioned film braced frame 600 moves back and forth, above-mentioned blade part 410 can also carry out back and forth together
Movement, at this point, vibrating, rocking because various, the upper-lower position of the floating wing 413 may change.
At this point, above-mentioned second measuring space sensor 813 measures the interval between 300 bottom for the treatment of trough, at above-mentioned
In the case of less than the permission spacing value set, signal is sent to the controller of user of service, user of service stops above-mentioned
The driving of reciprocating apparatus 200.And then the secondary above-mentioned film for being set by bolt fastening etc. and being connected with above-mentioned past complex frame 250
The upper-lower position of braced frame 600, to prevent the bottom impacts of the floating wing and treatment trough 300.
Second embodiment
Figure 17 is the top view for the embodiment for showing the interval adjusting device of the present invention.Figure 18 is the invention shown in Figure 17
The partial side elevation view of first interval adjustment portion.Figure 19 is the side view for the second interval adjustment portion for showing the invention shown in Figure 17.
Figure 20 is the side sectional view of the linkage for Mud up-floating device and the second interval adjustment portion for showing the invention shown in Figure 19.Figure 21
For the rearview of the linkage of the Mud up-floating device of the invention shown in Figure 20 and the second interval adjustment portion.
With reference to Figure 17 to Figure 21, above-mentioned film braced frame 600 or above-mentioned dirt is adjusted in interval adjusting device 860 of the invention
Interval between mud levitating device 420 and above-mentioned treatment trough 300.Above-mentioned interval adjusting device 860 may include:First interval is adjusted
Portion 820, for adjusting the interval between 300 inner wall of above-mentioned film braced frame 600 and above-mentioned treatment trough;And second interval adjustment portion
850, for adjusting the interval between 300 bottom of above-mentioned Mud up-floating device 420 and above-mentioned treatment trough.
First, above-mentioned first interval adjustment portion 820 may include to adjust cylinder 821, mobile unit 820a, the first contactless biography
Sensor 829, the first interval calculation portion 828, the first oil pressure amount calculating part 827 and the first driving portion 826.With reference to Figure 17, in this hair
In bright embodiment, 2 above-mentioned film braced frames 600 are connected with toward complex frame 250, and above-mentioned adjusting cylinder 821 can be above-mentioned one
To being configured at the upper end of above-mentioned past complex frame 250 between film braced frame 600.
Above-mentioned mobile unit 820a can be connected with the bar of above-mentioned adjusting cylinder 821, and support above-mentioned film braced frame 600,
And it is moved to the width of above-mentioned reciprocal frame 250.Above-mentioned mobile unit 820a may include moving track 825 and movement
Block 822.
With reference to Figure 18, above-mentioned moving track 825 can be configured along the width of above-mentioned past complex frame 250, above-mentioned movement
Block 822 may include movable pulley 823 to be moved along above-mentioned moving track 825, can pass through supporting beam 824 and above-mentioned film
Braced frame 600 connects.
Above-mentioned first noncontacting proximity sensor 829 is configured in the side of above-mentioned film braced frame 600, above-mentioned first interval
Calculating part 828 can be by the above-mentioned film braced frame 600 of signal measuring that is sent from above-mentioned first noncontacting proximity sensor 829 and upper
State the interval between the inner wall for the treatment of trough 300.
The calculated value in above-mentioned first interval calculation portion 828 can be transformed to oil pressure drive by above-mentioned first oil pressure amount calculating part 827
Dynamic value is sent to above-mentioned first driving portion 826.Above-mentioned first driving portion 826 can be according to above-mentioned first oil pressure amount calculating part 827
Oil pressure actuated value drives above-mentioned adjusting cylinder 821.
For example, the permission spacing value set is unable to reach in the inner wall for the treatment of trough 300 and the interval of film braced frame 600
In the case of, the first noncontacting proximity sensor 829 sends information, above-mentioned first interval meter to above-mentioned first interval calculation portion 828
After 828 counting period of calculation portion, above- mentioned information is sent to above-mentioned first oil pressure amount calculating part 827, then the first oil pressure gauge
Calculation portion 827 calculates required oil pressure actuated value.
If moreover, complete calculate, to oil pressure actuated portion send above- mentioned information, adjust cylinder 821 make movable block 822 advance or
Degree needed for retrogressing.Movable block 822 moves along track 825 and moves as a result, the position of adjustment film braced frame 600.
At this point, lateral mass is being configured toward complex frame 250, for the support of auxiliary film braced frame 600.With reference to Figure 17, past
4 corners of complex frame 250 configure the first lateral mass, are connected and are propped up with film braced frame 600 also with supporting beam 832
Support.
At this point, the protrusion 831a of above-mentioned first lateral mass can be configured to contact in the second lateral mass with linear bearing 833
834 swimmingly move linearly, and user of service can be fastened and fixed lid 835 by bolt 836.This is in above-mentioned past complex frame 250
On be configured with 4 a, support the movement of the width of the above-mentioned film braced frame 600 based on above-mentioned adjusting cylinder 821 respectively.
Afterwards, above-mentioned second interval adjustment portion 850 may include the second noncontacting proximity sensor 851, the second interval calculation portion
852nd, the second oil pressure amount calculating part 853 and the second driving portion 854.
Above-mentioned second noncontacting proximity sensor 851 is configured in the floating wing 480, measures the floating wing 480 and 300 bottom for the treatment of trough
Interval between portion.Above-mentioned second interval calculation portion 852 is calculated by the signal sent from above-mentioned second noncontacting proximity sensor 851
Interval between 300 bottom of the above-mentioned floating wing 480 and above-mentioned treatment trough.
The calculated value in above-mentioned second interval calculation portion 852 can be transformed to oil pressure drive by above-mentioned second oil pressure amount calculating part 853
Dynamic value.Above-mentioned second driving portion 854 can drive above-mentioned oil hydraulic cylinder according to the oil pressure actuated value of above-mentioned second oil pressure amount calculating part 853
431。
For example, above-mentioned second noncontacting proximity sensor 851 measure the above-mentioned floating wing 480 and 300 bottom of above-mentioned treatment trough it
Between interval, in the case that above-mentioned interval is unable to reach the permission spacing value set, sent out to above-mentioned second interval calculation portion 852
The number of delivering letters.Above-mentioned second interval calculation portion 852 is calculated above-mentioned by the signal sent from above-mentioned second noncontacting proximity sensor 851
Interval between 300 bottom of the floating wing 480 and above-mentioned treatment trough sends above-mentioned value to above-mentioned second oil pressure amount calculating part 853,
After above-mentioned value is converted to oil pressure actuated value by so above-mentioned second oil pressure amount calculating part 853, assigned to above-mentioned second driving portion 854
Give signal.
Above-mentioned second driving portion 854 drives above-mentioned oil hydraulic cylinder 431 to adjust the upper of above-mentioned second blade body 441 as a result,
Lower position.If the position upward direction movement of above-mentioned second blade body 441, the lower end with above-mentioned second blade body 441
The above-mentioned third blade body 470 and the floating wing 480 being connected also upward direction is mobile and control interval.
As described above, in an embodiment of the present invention, above-mentioned first interval adjustment portion 820 and above-mentioned second interval adjustment portion
850 calculate film braced frame 600 or the interval between Mud up-floating device 420 and treatment trough 300, are being unable to reach what is set
In the case of allowing interval, automatically adjustment is spaced again, prevents the equipment caused by the collision between equipment from using
Efficiency reduces and equipment is damaged.
Hereinafter, according to embodiment, the filtrate discharge unit that the present invention will be described in detail.Above-mentioned filtrate discharge unit is for outside
The structure for the filtrate that recycling is handled by separation membrane module 700 is managed including soft (flexible), even if above-mentioned separation membrane module
700 move back and forth, and filtrate discharge unit will not be destroyed, and can simply recycle filtrate.
First embodiment
First, reference Figure 28 illustrates the filtrate discharge unit 900 of first embodiment.The present embodiment is to be suitable for shown in Figure 23
The film braced frame of first embodiment and the configuration structure of separation membrane module on the basis of.
Above-mentioned filtrate discharge unit 900 may include catchment piping 920, the first recovery tube 940 and the second recovery tube 960.
As shown in figure 23, when multiple separation membrane modules 700 are configured at the inside of above-mentioned film braced frame 600, sewage (or
Lower water) it externally to self-filtering and can be collected by the hollow-fibre membrane 730 of each separation membrane module in above-mentioned upper frame
Water collecting part 711.
Tap 714 that can be 1 or more is formed in the upside of above-mentioned each upper frame 710, and passes through above-mentioned tap
714, above-mentioned piping 920 of catchmenting is connected with the water collecting part 711 of each separation membrane module.That is, above-mentioned piping 920 of catchmenting is arranged to
Cross multiple separation membrane modules 700 and be connected with each water collecting part 711, as a result, can by collect each water collecting part 711 filter
Liquid concentrates on a piping 920 of catchmenting.
In the present embodiment, above-mentioned piping 920 of catchmenting is discharged by being formed at one of the center of each upper frame 710
Hole 714 is connected with each water collecting part 711, and one is formed on the basis of above-mentioned film braced frame 600, but is not limited thereto,
Length according to above-mentioned upper frame 710 etc. can form multiple taps in upside, also, can set multiple pipings of catchmenting
920。
In order to concentrate on the filtrate of above-mentioned piping 920 of catchmenting to external recycling, it is above-mentioned catchment piping 920 can with one with
On the first recovery tube 940 be combined, in the present embodiment, two ends of above-mentioned piping 920 of catchmenting and 2 the first recovery tubes
940 are combined.Above-mentioned first recovery tube 940 is made of rigid pipe, and can be in S word shapes or linear type shape etc..
Afterwards, above-mentioned first recovery tube 940 is connected respectively with the second recovery tube 960, the spy of above-mentioned second recovery tube 960
Sign is that it is hose.Even if above-mentioned separation membrane module 700 moves back and forth as a result, above-mentioned filtrate discharge unit 900 will not
Breakage, and can easily recycle filtrate.
Above-mentioned second recovery tube 960 can be connected with suction pump (not shown), and above-mentioned suction pump is used for from doughnut
The outside of film 730 internally sucks inflow water and is filtered, and by suction, is recovered by above-mentioned second recovery tube 960
Filtrate can be stored in other tank (not shown).
That is, the filtrate for internally flowing into and being filtered from the outside of the hollow-fibre membrane 730 of above-mentioned separation membrane module, first
The water collecting part 711 of above-mentioned upper frame 710 is concentrated on, the filtrate for concentrating on each water collecting part 711 concentrates on one and catchments again
Piping 920, and recycled by above-mentioned first recovery tube, 940 and second recovery tube 960 to outside.
In the present embodiment, it is rigid first recovery tube being connected with piping of catchmenting and the second soft recovery tube is each
From separately being formed, but soft tube can also be made directly to be connected with above-mentioned piping of catchmenting.
Second embodiment
Afterwards, reference Figure 29 illustrates the filtrate discharge unit 1900 of second embodiment.The present embodiment is to be suitable for shown in Figure 24
The film braced frame of second embodiment and the configuration structure of separation membrane module on the basis of.
Above-mentioned filtrate discharge unit 1900 may include the first recovery tube 1940 and the second recovery tube 1960.
As shown in figure 24, above-mentioned film braced frame 600 includes being formed at the filtering piping 640 in upper center portion, to above-mentioned
The both sides of filtering piping 640 are combined with multiple separation membrane modules 700.At this point, the upper frame 710 of above-mentioned each separation membrane module
Insertion is formed at the combined hole 642 of above-mentioned filtering piping 640 and combines, and collects the filtrate in above-mentioned each water collecting part 711 as a result,
A filtering piping 640 can be concentrated on.
In order to concentrate on the filtrate of above-mentioned filtering piping 640 to external recycling, above-mentioned filtering piping 640 can with one with
On the first recovery tube 1940 be combined, in the present embodiment, two end of length direction of above-mentioned filtering piping 640 with 2 the
One recovery tube 1940 is combined.Above-mentioned first recovery tube 1940 is made of rigid pipe, and can be in S word shapes or linear type shape
Deng.
Afterwards, above-mentioned first recovery tube 1940 is connected respectively with the second recovery tube 1960, above-mentioned second recovery tube 1960
Be characterized as hose.Even if above-mentioned separation membrane module 700 moves back and forth as a result, above-mentioned filtrate discharge unit 1900
Will not be damaged, and can easily recycle filtrate.
Identical with first embodiment, above-mentioned second recovery tube 1960 can be connected with suction pump (not shown), by suction
Power, the filtrate being recovered by above-mentioned second recovery tube 1960 are stored in other tank (not shown).
That is, the filtrate for internally flowing into and being filtered from the outside of the hollow-fibre membrane 730 of above-mentioned separation membrane module, first
The water collecting part 711 of above-mentioned upper frame 710 is concentrated on, the filtrate for concentrating on each water collecting part 711 concentrates on a filtering again
Piping 640, and recycled by above-mentioned first recovery tube, 1940 and second recovery tube 1960 to outside.
In the present embodiment, it is rigid first recovery tube and the second soft recovery tube that are connected with filtering piping is each
From separately forming, but soft tube can also be made directly to be connected with above-mentioned filtering piping.
Then, with reference to Figure 30 to Figure 33, by each embodiment, illustrate that multiple film braced frames 600 are arranged at above-mentioned processing
The structure of the inside of slot 300.
Filtration capacity generally according to sewage (or lower water) etc., and configure multiple film branch in the inside of above-mentioned treatment trough 300
Support frame frame 600.At this point, above-mentioned multiple film braced frames 600 with a row can in long way be arranged, also may be used according to floor space etc.
It is divided into multiple row to configure.
Hereinafter, to each reality on the basis of setting the situation of 10 film braced frames 600 in the inside of above-mentioned treatment trough 300
Example is applied to illustrate.
First embodiment
According to first embodiment, 10 film braced frames 600 are arranged in the inside of above-mentioned treatment trough 300 with a row, and with
One reciprocating apparatus 200 is connected and integrally moves back and forth.
This but width long in the length for the occupation of land that above-mentioned treatment trough 300 is set can be applicable in when less rich.
As described above, above-mentioned reciprocating apparatus 200 may include toward complex frame 250 and driving portion 205, above-mentioned reciprocating apparatus 250
It is connected with above-mentioned film braced frame 600 and film braced frame is made to move back and forth.
Specifically, above-mentioned past complex frame 250 is with above-mentioned film braced frame 600 is connected and supports above-mentioned film braced frame
600 part, above-mentioned driving portion 205 is configured at above-mentioned treatment trough 300, and is connected with the one side of above-mentioned past complex frame 250, from
And moved above-mentioned past complex frame 300.
In the present embodiment, above-mentioned 10 film braced frames 600 are connected with a reciprocating apparatus 200, therefore, above-mentioned 10
A film braced frame 600 is with a row configuration the inside toward complex frame 250.At this point, above-mentioned 10 film braced frames 600 can
Inside of the tool there are one the past complex frame 250 of frame is arranged at a row to be all connected with, but can also be as shown in figure 30, make above-mentioned
Be formed as toward complex frame 250 with the corresponding compartment of quantity with the film braced frame 600 to be set, i.e. in the present embodiment
In, there are 10 compartments, above-mentioned film braced frame 600 can be respectively arranged at each compartment as a result,.As a result, in film braced frame
600 is impaired or generation problem in the case of, can individually be replaced, and set and become easier.
According to the present embodiment, due to needing with a reciprocating apparatus 200 multiple film braced frames 600 to be made back and forth to be transported
It is dynamic, it is therefore desirable to big driving force.
Second embodiment
According to second embodiment, 10 film braced frames 600 are arranged in the inside of above-mentioned treatment trough 300 with a row, and
According to each 5 of both sides model split and be connected respectively with reciprocating apparatus 200.As a result, according to the model split of each 5 of both sides
600 groups of film braced frame can individually move back and forth.That is, 600 groups of the film braced frame of both sides can be carried out to equidirectional
It moves back and forth, can also move back and forth to different directions.
This it is identical with first embodiment can the occupation of land that above-mentioned treatment trough 300 is set length it is long but width is less rich
It is applicable in when abundant.
Specifically, in the present embodiment, above-mentioned 10 film braced frames 600 are divided into 2 groups and past with one respectively in both sides
Apparatus for coating 200 is connected, and therefore, above-mentioned reciprocating apparatus 200 is respectively arranged at the both sides of above-mentioned treatment trough 300, every 5 films support
Frame 600 is configured at the inside toward complex frame 250 by a row.
At this point, above-mentioned 600 groups of 5 film braced frames can be all connected with and be arranged at past complex frame of the tool there are one frame with a row
250 inside, but can also be as shown in figure 31, above-mentioned past complex frame 250 is made to be formed as having and the film braced frame to be set
The 600 corresponding compartment of quantity, i.e. in the present embodiment, be formed as that there are 5 compartments, make above-mentioned film braced frame as a result,
600 are arranged at each compartment.As a result, film braced frame 600 is impaired or generation problem in the case of, can individually be replaced,
And setting becomes easier.
The present embodiment not makes 10 film braced frames integrally past by a reciprocating apparatus as with the first embodiment
Multiple movement, but divided according to 5 film braced frames 600 and be connected respectively with reciprocating apparatus 200, even if thus not assigning
Big driving force is given, also between 5 600 groups of film braced frames across interval each group can be made back and forth to transport round about
It moves to generate vortex, thus can also obtain Mud up-floating effect.
3rd embodiment
According to third embodiment, 10 film braced frames 600 can be arranged in above-mentioned in a manner of 5 divisions of each column, 2 row
The inside for the treatment of trough 300, and be connected with a reciprocating apparatus 200 and integrally move back and forth.
The width of this occupation of land that can be set in above-mentioned treatment trough 300 is wide but when length is less rich is applicable in.
Specifically, in the present embodiment, above-mentioned 10 film braced frames 600 are connected with a reciprocating apparatus 200, because
This, above-mentioned 10 film braced frames 600 are abreast configured to 2 row the inside toward complex frame 250.
At this point, above-mentioned 10 film braced frames 600 can be arranged at tool in which be all connected with the state of 5 divisions of each column, 2 row
There are one the inside of past the complex frame 250 of frame, but can also be as shown in figure 32, make above-mentioned past complex frame 250 be formed as with
The corresponding compartment of quantity for the film braced frame 600 to be set, i.e. in the present embodiment, according to 5 divisions of each column, 2 row
10 compartments are formed in total, and above-mentioned film braced frame 600 is made to be arranged at each compartment as a result,.As a result, in film braced frame 600
It in the case of impaired or generation problem, can individually be replaced, become easy so as to set.
According to the present embodiment, due to needing to move back and forth multiple film braced frames 600 by a reciprocating apparatus 200,
Therefore big driving force is needed.
Fourth embodiment
According to fourth embodiment, 10 film braced frames 600 are arranged in above-mentioned processing in a manner of 5 divisions of each column, 2 row
The inside of slot 300, each row are connected with respective reciprocating apparatus 200.600 groups of the film braced frame respectively arranged as a result, can be each past
Multiple movement.That is, 600 groups of the film braced frame respectively arranged can be moved back and forth to equidirectional, but also can back and forth be transported to different directions
It is dynamic.
It is identical with 3rd embodiment, can the occupation of land that above-mentioned treatment trough 300 is set width is wide but length less
It is applicable in when rich.
Specifically, in the present embodiment, above-mentioned 10 film braced frames 600 be divided into 2 row and respectively with a reciprocating apparatus
200 are connected, and therefore, above-mentioned 2 reciprocating apparatuses 200 are abreast arranged at the one side of above-mentioned treatment trough 300, every 5 films support
Frame 600 is arranged in the inside toward complex frame 250 with a row.
At this point, above-mentioned 600 groups of 5 film braced frames can be all connected with and be arranged at past complex frame of the tool there are one frame with a row
250 inside, but can also be as shown in figure 33, above-mentioned past complex frame 250 is made to be formed as having and the film braced frame to be set
The 600 corresponding compartment of quantity, i.e. in the present embodiment, be formed as that there are 5 compartments, make above-mentioned film braced frame as a result,
600 are arranged at each compartment.As a result, film braced frame 600 is impaired or generation problem in the case of, can individually be replaced,
And setting becomes easier.
The present embodiment not makes 10 film braced frames integrally past as 3rd embodiment by a reciprocating apparatus
Multiple movement, but make each column that there are 5 film braced frames 600 and be connected respectively with reciprocating apparatus 200, and without assigning big
Power across interval between 600 groups of the film braced frame of each row, makes each group to move back and forth to generate round about
Thus vortex can also obtain the effect of Mud up-floating.
Also, as each arrange to different directions moves back and forth, can offset by moving back and forth the vibration generated, so as to subtract
The vibration that few above-mentioned treatment trough 300 occurs so that become stable.
Hereinafter, the control method of the control unit 1000 of the present application and the membrane filtration system based on it is illustrated.
The membrane filtration system of the present invention may also include the reciprocating motion length that can control above-mentioned separation membrane module 700 or shake
Move the control unit 1000 of number.
Above-mentioned control unit 1000 adjusts seperation film in above-mentioned separation according to service condition, the dustiness etc. of separation membrane module
Reciprocating motion length or vibration number in film module 700, in the present embodiment, above-mentioned control unit 1000 may include:Pollution measurement
Portion 1200 measures the dustiness of above-mentioned separation membrane module 700;And adjusting control portion 1400, according to passing through above-mentioned pollution measurement
The dustiness that portion 1200 measures controls the reciprocating motion length or vibration number of above-mentioned separation membrane module 700.
Above-mentioned pollution measurement portion 1200 can be by measuring the cross-film differential pressure (TMP) of seperation film, to measure above-mentioned seperation film mould
The dustiness of block 700.In the membrane filtration system of the present invention, during Initial operation or fortune after (bachwash) is backwashed
During row, the dustiness of the above-mentioned separation membrane module 700 determined is estimated low, after the filtering of long duration is carried out, measures
The estimated height of the dustiness of the above-mentioned separation membrane module 700 gone out.
As a result, as the dustiness of above-mentioned separation membrane module 700 becomes higher, above-mentioned adjusting control portion 1400 can increase above-mentioned point
Vibration number from film module 700, as the dustiness of above-mentioned separation membrane module 700 is lower, above-mentioned adjusting control portion 1400 can subtract
The vibration number of few above-mentioned separation membrane module 700.That is, as above-mentioned dustiness becomes higher, the reciprocal of above-mentioned separation membrane module 700 is reduced
Cycle as above-mentioned dustiness is lower, increases the oscillation cycle of above-mentioned separation membrane module 700.
If increasing the vibration number of above-mentioned separation membrane module 700, seperation film moves back and forth at faster speed, separation
The inertia that film is endowed further becomes larger, and thus separates, removes the pollutant for being attached to seperation film.
Simply, if increasing vibration number, energy consumption becomes larger, therefore can be according to the pollution of above-mentioned separation membrane module 700
Degree is suitably adjusted, and thus can not only reduce energy consumption but also can obtain that Film impurity was separated as caused by reciprocating motion
(fouling) removal effect.
At this point, above-mentioned film braced frame 600 and support of the above-mentioned separation membrane module 700 with being provided with separation membrane module 700
The above-mentioned past complex frame 250 of film braced frame 600 moves back and forth together, therefore by adjusting above-mentioned past complex frame 250
Reciprocal distance and vibration number (cycle) can also adjust above-mentioned separation membrane module 700.
Above-mentioned adjusting control portion 1400 can be connected to control the above-mentioned of transmission power with above-mentioned reciprocating apparatus 200 as a result,
The speed of motor 210.
In the present embodiment, above-mentioned separation membrane module 700 may be set to move back and forth by 0.5Hz, according to seperation film
Dustiness, be adjustable to 1Hz.Simply, if vibration number is more than 1Hz, energy expenditure quantitative change is more, and to the knot of membrane filtration system
Structure object brings damage, therefore not preferably.
Also, as the dustiness of above-mentioned separation membrane module 700 becomes higher, above-mentioned adjusting control portion 1400 can increase above-mentioned point
Reciprocating motion length from film module 700, as the dustiness of above-mentioned separation membrane module 700 is lower, above-mentioned adjusting control portion
1400 can reduce the reciprocating motion length of above-mentioned separation membrane module 700.
That is, when vibration number is maintained it is identical when, if increasing the reciprocating motion length of above-mentioned separation membrane module 700, separate
The speed that film moves back and forth becomes faster, so as to which the effect similar with improving vibration number be presented, if vibration number is excessively high, because reciprocal
It is vibrated caused by movement and makes the structural damage of system, therefore reciprocating motion length can be increased.
If increasing the reciprocating motion length of above-mentioned separation membrane module 700, seperation film is back and forth transported at faster speed
Dynamic, the inertia that seperation film is endowed further becomes larger, and thus separates, removes the pollutant for being attached to seperation film.
At this point, above-mentioned separation membrane module 700 carried out together with above-mentioned film braced frame 600 and above-mentioned past complex frame 250 it is past
Multiple movement, therefore, the reciprocal of above-mentioned separation membrane module 700 is can also adjust by the reciprocal distance for adjusting above-mentioned past complex frame 250
Distance.Above-mentioned adjusting control portion 1400 is connected with above-mentioned reciprocating apparatus 200 as a result, so as to which above-mentioned past complex frame 250 be adjusted
Reciprocal distance.
Specifically, as described above, above-mentioned driving portion 205 includes motor 210, first pulley 211, second pulley 213, rotor
230 and connecting rod 220, said motor 210 and rotor 230 by above-mentioned first pulley 211 and second pulley 213 so as to rotation
Mode is connected, and above-mentioned connecting rod 220 is connected to above-mentioned rotor 230 and toward between complex frame 250, so as to which rotary motion is converted
It can move back and forth.
At this point, in multiple connectors 233 that the formation of above-mentioned rotor 230 is connected with above-mentioned connecting rod 220, if changing as a result,
The reciprocal distance of above-mentioned past complex frame 250 is then adjusted in the connector 233 that above-mentioned connecting rod 220 is connected with above-mentioned rotor.
That is, as the dustiness of above-mentioned separation membrane module 700 becomes higher, above-mentioned adjusting control portion 1400 needs to increase above-mentioned point
In the case of reciprocating motion length from film module 700, above-mentioned connecting rod 220 is connected to the middle heart septum away from above-mentioned rotor 230
Thus relatively large connector 233b can increase the reciprocal distance of above-mentioned past complex frame 250.
On the contrary, as the dustiness of above-mentioned separation membrane module 700 is lower, above-mentioned adjusting control portion 1400 needs to reduce above-mentioned
In the case of the reciprocating motion length of separation membrane module 700, above-mentioned connecting rod 220 is connected between the center away from above-mentioned rotor 230
Every relatively small connector 233a, the reciprocal distance of above-mentioned past complex frame 250 thus can be reduced.
In addition, above-mentioned connecting rod 220 may include:Con-rod only 221;First connecting hole 223, is configured at above-mentioned con-rod only
233 one side is combined with the connector 233 of above-mentioned rotor;And second connecting hole 225, it is configured at above-mentioned con-rod only 221
Opposite side, be combined with above-mentioned past complex frame 250, above-mentioned first connecting hole 223 can be along the length of above-mentioned con-rod only 221
Direction is machined with multiple.
If change the portion of the first connecting hole 223 of the above-mentioned connecting rod being connected with the connector 223 of above-mentioned rotor as a result,
The reciprocal distance of above-mentioned past complex frame 250 is then adjusted in position.
That is, as the dustiness of above-mentioned separation membrane module 700 becomes higher, above-mentioned adjusting control portion 1400 needs to increase above-mentioned point
From film module 700 toward in the case of move distance, by the connector 233 of above-mentioned rotor be anchored in above-mentioned connecting rod 220 away from
Thus the first relatively remote connecting hole 223b of above-mentioned second connecting hole 225 can increase the reciprocal distance of above-mentioned past complex frame 250.
On the contrary, as the dustiness of above-mentioned separation membrane module 700 is lower, above-mentioned adjusting control portion 1400 needs to reduce above-mentioned
In the case of the reciprocating motion length of separation membrane module 700, the connector 233 of above-mentioned rotor is anchored in above-mentioned connecting rod 220
Away from above-mentioned second connecting hole, 225 relatively near first connecting hole 223a, thus can reduce above-mentioned past complex frame 250 it is reciprocal away from
From.
Also, according to embodiment, as backwash (backwash) of above-mentioned separation membrane module 700, above-mentioned adjusting control
Raising vibration number is controllably made in portion 1400.In the present embodiment, when the backwash of above-mentioned separation membrane module 700, controllably it is made
Vibration number is improved to 0.7Hz, thus can improve detersive efficiency.
Above item only represents the specific embodiment of membrane filtration system.
Therefore, the invention is not limited in above-mentioned specific embodiment and explanation, without departing from requested of scope of request
In the case of the purport of invention, general technical staff of the technical field of the invention can carry out various deformation implementation, this change
Shape belongs to the scope of protection of the present invention.
Claims (10)
1. a kind of membrane filtration system, which is characterized in that
Including:
Treatment trough;
Film braced frame is configured in above-mentioned treatment trough;
Separation membrane module is installed on above-mentioned film braced frame;
Reciprocating apparatus is connected with above-mentioned film braced frame, moves back and forth above-mentioned film braced frame;And
Mud up-floating portion is configured at the lower end of above-mentioned film braced frame, makes the Mud up-floating for being piled up in above-mentioned treatment trough,
Above-mentioned separation membrane module includes upper frame, lower frame and hollow-fibre membrane, and above-mentioned hollow-fibre membrane is arranged at above-mentioned
Between upper frame and lower frame.
2. membrane filtration system according to claim 1, which is characterized in that
Water collecting part is formed in the inside of above-mentioned upper frame, above-mentioned water collecting part is connected with the hollow bulb of above-mentioned hollow-fibre membrane.
3. membrane filtration system according to claim 2, which is characterized in that
Above-mentioned upper frame and lower frame include protruding the distance maintaining portion to be formed from frame.
4. membrane filtration system according to claim 3, which is characterized in that
Above-mentioned distance maintaining portion includes the engaging portion combined with other opposite distance maintaining portions.
5. membrane filtration system according to claim 1, which is characterized in that
Above-mentioned hollow-fibre membrane is arranged to form multiple beams and each hollow fiber membrane bundle is spaced from each other.
6. the membrane filtration system according to Claims 2 or 3, which is characterized in that
Above-mentioned separation membrane module is abreast provided with multiple in above-mentioned film braced frame.
7. the membrane filtration system according to Claims 2 or 3, which is characterized in that
The filtering piping being configured in above-mentioned film braced frame is further included,
Multiple above-mentioned separation membrane modules are abreast combined with above-mentioned filtering piping.
8. membrane filtration system according to claim 7, which is characterized in that
Multiple combined holes are formed in above-mentioned filtering piping, above-mentioned combined hole, above-mentioned water collecting part are inserted into one end of above-mentioned upper frame
With combinations of states of the above-mentioned filtering piping to connect.
9. membrane filtration system according to claim 8, which is characterized in that
Above-mentioned filtering piping is configured at the upper center portion of above-mentioned film braced frame, and multiple above-mentioned separation membrane modules are abreast and right
It is incorporated into the both sides of above-mentioned filtering piping with claiming.
10. membrane filtration system according to claim 7, which is characterized in that
The direction that above-mentioned filtering piping is configured to above-mentioned film braced frame moves back and forth is vertical.
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