CN1923725A - High efficiency separation membrane assembly for waste water treatment - Google Patents

Abstract

The invention relates to a high efficiency separation membrane assembly for waste water treatment with simple structure and more easy assemblage. The high efficiency separation membrane assembly for waste water treatment comprises a separation membrane frame and an exhausting gas pipe; the separation membrane frame includes: a plurality of frame bodies, a plurality of separation membranes connected with headers and fixing parts, upper and lower fixing parts connected to both upper and lower sides of the frame bodies respectively, upper combination parts connected to both sides of the upper parts of the frame bodies respectively, delivery pipes connected to a pair of upper combination parts, connecting parts inter-connected headers and delivery pipes and discharging heads connected to the delivery pipes; the exhausting gas pipe consists of: a plurality of exhausting gas pipe bodies, lower combination parts connected to both sides of the lower parts of the exhausting gas pipe bodies respectively, supply pipes connected to a pair of lower combination parts, a plurality of nozzles connected to the supply pipes, exhausting gas heads and sullage discharging heads connected to both sides of the supply pipes and valves for opening/closing the sullage discharging heads.

Description

High efficiency separation membrane assembly for waste water treatment

Technical field

The present invention relates to be used to handle the separating film module of the impregnated film separation system of water drain water and dirty waste water, relate in particular to assembling and make and be easy to high efficiency separation membrane assembly for waste water treatment.

Background technology

In general, impregnated film separation system is the foreign matters such as dissolved contaminants matter, microorganism and suspended solid that contain in filtration treatment water drain water and the dirty waste water, the system that above-mentioned water drain water and dirty waste water are purified by biology technology or physical technology.

Above-mentioned impregnated film separation system has a plurality of reactive tanks, has the aerobic groove of membrane sepn in above-mentioned each reactive tank, microorganism in pollutent such as the organic pollutant that contains in the former water that flow in the above-mentioned impregnated film separation system, dissolved contaminants and the above-mentioned former water of phosphorus composition matter utilization can be eliminated, and stop and eliminate the suspended solid that contains in the above-mentioned former water.

Be provided with the separating film module that is connected with a plurality of separatory membranes in the aerobic groove of above-mentioned membrane sepn, above-mentioned separatory membrane can stop the suspended solid that contains in the interior former water of above-mentioned aerobic groove, so that above-mentioned purificating raw water is processed into clean state.

But, be arranged on the separating film module complex structure in the aerobic groove of membrane sepn of above-mentioned impregnated film separation system in the past, the therefore making complexity of above-mentioned separating film module not only, and be difficult to make above-mentioned separating film module, and the manufacturing cost costliness.

In addition, between forming, the separatory membrane framework of above-mentioned separating film module and the connection of diffuser and each be connected to welding process, the therefore carrying of above-mentioned separating film module and carry very difficultly, and the operation of above-mentioned separating film module site assembly also is not easy.

In addition and since each of separating film module form between by being welded to connect, therefore a large amount of welding operations can make above-mentioned separating film module and each produce distortion between forming, thereby causes above-mentioned separating film module of poor quality.

Summary of the invention

For solving above-mentioned problem in the past the present invention is proposed, its objective is provides high efficiency separation membrane assembly for waste water treatment, each different structure of forming according to separating film module, above-mentioned each composition is connected by screw (bolt) mode of connection, make the simple in structure of above-mentioned separating film module, and the making of above-mentioned separating film module and fitting work are easy.

For achieving the above object, the invention provides high efficiency separation membrane assembly for waste water treatment, it is used for purifying treatment water drain water and dirty waste water, it is characterized in that, and above-mentioned separating film module has separatory membrane framework and diffuser.

Wherein, above-mentioned separatory membrane framework has: a plurality of chassis body, and it is enclosing four sides and form outward appearance respectively, removably interconnects simultaneously, and its edge has a plurality of connecting holes; A plurality of separatory membranes, it is arranged in the said frame main body, is used to the suspended solid that stops that former water contains; Header, it is connected above-mentioned each separatory membrane top, be used to collect the treating water by separatory membrane, and the both sides of header has gully-hole; Fixed part, it is connected above-mentioned each separatory membrane bottom, is used to support fixedly separated film bottom; Framework upper and lower part fixed part, it is connected the both sides, upper and lower part of said frame main body respectively by screw; The top bonded block, it is arranged to side-prominent from said frame main body top two respectively, removably combination, and have a plurality of tops connecting hole; Induction pipe, the both sides, top that it is arranged on the said frame main body removably are connected on the bonded block of above-mentioned a pair of top; Interconnecting piece, it is arranged between above-mentioned each header and each induction pipe, interconnects above-mentioned each header and induction pipe; Discharge head, it is connected on the above-mentioned induction pipe and detachably, is used to form the treating water stream that treating water is discharged to the separating film module outside.

For each separatory membrane air supply to above-mentioned separatory membrane framework, bottom at above-mentioned separatory membrane framework is provided with diffuser, and above-mentioned diffuser has: a plurality of diffuser main bodys, and it is enclosing four sides and form outward appearance respectively, removably interconnect simultaneously, its edge has a plurality of connecting holes; The bottom bonded block, it is arranged to respectively from above-mentioned diffuser lower body part two side-prominent, removably combination, and have a plurality of bottoms connecting hole; Supply-pipe, the both sides, bottom that it is separately positioned on above-mentioned diffuser main body removably are connected on the bonded block of above-mentioned a pair of bottom, are used to make air to flow into from the outside; A plurality of nozzles, it is connected with each supply-pipe in above-mentioned diffuser body interior, and has a plurality of nozzle bores, so that the air of carrying from each supply-pipe supplies to the separatory membrane framework; Gas blow head, it is connected to above-mentioned each supply-pipe one side and detachable, is used to form the extraneous air stream that extraneous air is transported to each supply-pipe; Mud is discharged head, and it is connected to above-mentioned each supply-pipe opposite side and detachable, is used for the mud in each supply-pipe and each nozzle is discharged; Valve, it is connected above-mentioned mud and discharges on the head, is used to open and close above-mentioned mud and discharges head.

Description of drawings

Fig. 1 is the structural upright synoptic diagram of high efficiency separation membrane assembly for waste water treatment of the present invention.

Fig. 2 is the STRUCTURE DECOMPOSITION schematic perspective view of high efficiency separation membrane assembly for waste water treatment of the present invention.

Fig. 3 is the separatory membrane skeleton construction exploded perspective synoptic diagram of separating film module of the present invention.

Fig. 4 is the upside major portion enlarged diagram of separatory membrane framework of the present invention.

Fig. 5 is the diffuser STRUCTURE DECOMPOSITION schematic perspective view of separating film module of the present invention.

Fig. 6 is the superposed state front schematic view of separating film module of the present invention.

Description of reference numerals

10: separating film module (unit), 100: the separatory membrane framework, 110: chassis body,

120: separatory membrane, 130: induction pipe, 140: the top bonded block,

150: the framework upper fixed part, 151: the top fixing part, 160: framework bottom fixed part,

161: the bottom fixing part, 170: separatory membrane framework guide member, 171: guide portion,

180: interconnecting piece, 190: discharge head, 200: diffuser, 210: the diffuser main body,

220: the bottom bonded block, 230: supply-pipe, 240: nozzle, 250: holding components,

260: the diffuser guide member, 261: guide portion, 270: gas blow head,

280: mud is discharged head, 281: valve

Embodiment

Describe preferred implementation of the present invention in detail below with reference to Fig. 1 to Fig. 6.

Fig. 1 is the structural upright synoptic diagram of high efficiency separation membrane assembly for waste water treatment of the present invention.Fig. 2 is the STRUCTURE DECOMPOSITION schematic perspective view of high efficiency separation membrane assembly for waste water treatment of the present invention.Fig. 3 is the separatory membrane skeleton construction exploded perspective synoptic diagram of separating film module of the present invention.Fig. 4 is the upside major portion enlarged diagram of separatory membrane framework of the present invention.Fig. 5 is the diffuser STRUCTURE DECOMPOSITION schematic perspective view of separating film module of the present invention.Fig. 6 is the superposed state front schematic view of separating film module of the present invention.

Of the present invention water drain water and dirty purification of waste water are processed in the impregnated film separation system structure of clean water, for the suspended solid that stops that above-mentioned water drain water and dirty waste water contain, in the aerobic groove of membrane sepn, be provided with separating film module 10, to stop suspended solid, water drain water and dirty waste water are carried out purifying treatment.

As depicted in figs. 1 and 2, above-mentioned separating film module 10 has: separatory membrane framework 100, and it is used for the suspended solid that stops that water drain water and dirty waste water contain; Diffuser 120, it is arranged on above-mentioned separatory membrane framework 100 bottoms, is used for the extraneous air that fan is supplied with is supplied to separatory membrane framework 100.

Just, the aerobic groove arranged outside of above-mentioned membrane sepn has off-gas pump, so pump power according to above-mentioned off-gas pump work generation, can make treating water be discharged to the aerobic groove of above-mentioned membrane sepn outside by above-mentioned separating film module 10 purifying treatment, the treating water of above-mentioned discharge flow into separating film module 10 and is connected in the pipeline of bleeding (line) that is provided with, by off-gas pump, flow into and handle in the tank.

In addition, in order to prevent each separatory membrane obturation of above-mentioned separatory membrane framework 100, to be transported to the diffuser 200 of separating film module 10 by the air that the fan that is arranged on the aerobic groove of the above-mentioned separatory membrane outside produces, by above-mentioned diffuser 200 air be supplied with separatory membrane framework 100 simultaneously.

As shown in Figures 2 and 3, the separatory membrane framework 100 that is used for the separating film module 10 of above-mentioned water drain water of purifying treatment and dirty waste water has the chassis body 110 that forms outward appearance.

Just, as shown in Figure 2, said frame main body 110 lays respectively at the four sides and interconnects for the four sides of enclosing separatory membrane framework 100, and the edge support separatory membrane framework 100 of said frame main body 110.

In addition, said frame main body 110 edges are formed with a plurality of connecting hole 110a, by the difference coupling screw, each chassis body 110 are interconnected.

The said frame main body 110 not only forward and backward chassis body 110 on the accompanying drawing has identical size, and left and right chassis body 110 also has identical size.Above-mentioned forward and backward chassis body 110 is compared smaller with left and right chassis body 110, this be for make be discharged to header described later treating water processing element etc. assembling more smoothly and prevent interference with above-mentioned composition etc.

Here, front, rear, left and right chassis body 110 changes according to the position of seeing, so the size of chassis body 110 also can change according to the position.

On the other hand, said frame main body 110 further is connected with at least one stirrup 111, is used to strengthen the intensity of said frame main body 110, and prevents the change of shape of said frame main body 110.Above-mentioned stirrup 111 adopts spot welding or screw connecting mode to connect in order to reduce the physical deformation that chassis body 110 welding produce to greatest extent.

Above-mentioned stirrup 111 can be provided with or not be arranged on the chassis body 110, and this is because can have multiple chassis body 110 according to application target, the effect of chassis body 110, requirement etc. that condition and user be set.

Be connected with a plurality of separatory membranes 120 in the said frame main body 110, be used for the suspended solid that stops that water drain water and dirty waste water contain with minute aperture.

Above-mentioned each separatory membrane 120 top are connected with header 121, are used to support and the top of fixedly separated film 120, and collect, promptly concentrate the clean treating water that will flow through separatory membrane 120.In addition, above-mentioned each separatory membrane 120 bottom are connected with fixed part 122, are used for supporting and fixedly separated film 120 bottoms.

Above-mentioned header 121 both sides are formed with gully-hole 121a respectively, are used for concentrated in above-mentioned header 121 and mobile treating water are discharged to above-mentioned separatory membrane framework 110 outsides, are separating film module 10 outsides.

As shown in Figure 4, the both sides, top of said frame main body 110 are respectively arranged with framework upper fixed part 150, are used for fixing each header 121, and treating water is discharged to separating film module 10 outsides.

Above-mentioned each framework upper fixed part 150 both sides have top supporting hole 150a respectively, the connecting hole 110a that forms on above-mentioned supporting hole and the separatory membrane framework 100 both sides chassis body 110 is corresponding, and inserts coupling screw under the state corresponding with above-mentioned each connecting hole 110a.

Be connected with a plurality of tops fixing part 151 on the position that separates with appointed interval below above-mentioned each framework upper fixed part 150, above-mentioned top fixing part inserts the both sides of supporting and fixing the header 121 of each separatory membrane 120 respectively, so that each separatory membrane 120 of above-mentioned support and fixed keeps appointed interval.

As shown in Figure 3, the both sides, bottom of said frame main body 110 are respectively arranged with framework bottom fixed part 160, be used for fixing each fixed part 122, and above-mentioned each fixed part 160 both sides, framework bottom have lower support hole 160a respectively, the connecting hole 110a that forms on above-mentioned supporting hole and the separatory membrane framework 100 both sides chassis body 110 is corresponding, and inserts coupling screw under the state corresponding with above-mentioned each connecting hole 110a.

Be connected with a plurality of bottoms fixing part 161 on above-mentioned each position that separates with appointed interval above the framework bottom fixed part 160, above-mentioned bottom fixing part inserts the both sides of supporting and fixing the fixed part 122 of each separatory membrane 120 respectively, so that each separatory membrane 120 of above-mentioned support and fixed keeps appointed interval.

Above-mentioned each upper and lower part fixing part 151,161 has identical shaped.As Fig. 5 and shown in Figure 7, above-mentioned each upper and lower part fixing part 151,161 outsides have four jiaos or hexagonal configuration, insert and are connected and fixed so that header 121 and fixed part 122 are slick and sly respectively, and this can be according to operation purpose, effect and manufacturing conditions and variation.

In addition, above-mentioned each upper and lower part fixing part 151,161 has at least one the fixed orifices 151a that is used to insert screw respectively, and 161a, screw are connected upper and lower of framework upper and lower part fixed part 150,160.Above-mentioned each fixed orifices 151a, 161a one side, just the fixed orifices 161a upside of the fixed orifices 151a downside of the above-mentioned top fixing part 151 of accompanying drawing and above-mentioned bottom fixing part 161 has step layer 151b respectively, 161b, be connected to above-mentioned each fixed orifices 151a to prevent to insert, the screw head among the 161a is outstanding.

Above-mentioned step layer 151b, 161b have four jiaos or hexagonal configuration, so that screw is more prone to connect and be located away from fixed orifices 151a, and 161a, and prevent toner screw, this can be according to operation purpose, effect and manufacturing conditions and variation.

The both sides, top of above-mentioned separatory membrane framework 100 are connected with top bonded block 140 respectively, and outstanding to the outside of above-mentioned chassis body 110, and above-mentioned each top bonded block 140 has a pair of as shown in the figure.

As shown in Figure 3 and Figure 4, above-mentioned each top bonded block 140 bends to the  word shape, above-mentioned top bonded block 140 so long as do not interfere mutually that ground connects above-mentioned separatory membrane framework 100 respectively form middle frame top fixed part and induction pipe described later and separatory membrane framework guide member etc., just can be the Any shape outside the above-mentioned shape.

Have a plurality of top connecting hole 140a that are used for the screw connection on each face of above-mentioned each top bonded block 140 respectively, make between above-mentioned each top bonded block 140 and chassis body 110 and each composition removably to be connected.

Induction pipe 130 is separately positioned on above-mentioned each top bonded block 140 top, and induction pipe both sides and above-mentioned top bonded block 140 top contacts, induction pipe 130 is used to make the treating water of carrying from above-mentioned each header 121 to flow into, and the treating water of above-mentioned inflow is discharged the outside that is transported to separating film module 10.

The interconnecting piece 180 that interconnects above-mentioned each header 121 and induction pipe 130 is set between above-mentioned each induction pipe 130 and header 121, makes treating water be transported to induction pipe 130 from above-mentioned header 121.

Above-mentioned each bottom, induction pipe 130 both sides is connected with angle bar (angle) 131 respectively, above-mentioned angle bar contacts with the one side of above-mentioned each top bonded block 140, above-mentioned each top bonded block 140 removably is connected with each induction pipe 130, and above-mentioned angle bar has each the connecting hole 140a a plurality of angle bar hole 131a corresponding, that be used for the screw connection with above-mentioned each top bonded block 140.

Above-mentioned each induction pipe 130 bottom surface are provided with a plurality of ostium 130a, the treating water that is used to above-mentioned header 121 is carried flow in the induction pipe 130 by each interconnecting piece 180, and above-mentioned each induction pipe 130 1 side are connected with the flange 132 with outlet orifice, and the treating water in the induction pipe 130 is discharged to separating film module 10 outsides.

On the other hand, as shown in Figure 4, the structure of above-mentioned each interconnecting piece 180 is to have each the ostium 130a that is inserted into above-mentioned induction pipe 130 and the support (holder) 181 that is connected and fixed, and has connection section 182.The one end insertion of above-mentioned connection section 182 is connected in the above-mentioned support 181 and the other end insertion is connected among the gully-hole 121a of header 121, and treating water is transported to induction pipe 130 from above-mentioned header 121, plays the effect of above-mentioned treating water stream.

Connection section 182 peripheries of above-mentioned support 181 sides have at least one slot part 183, be used for inserting connecting and have certain elastic sealing element (sealing) 184, with firm connection support 181 and connection section 182, and can prevent that treating water from flowing out between above-mentioned support 181 and the connection section 182.

The both sides, chassis body 110 top of above-mentioned separatory membrane framework 100, on the position more outstanding than above-mentioned induction pipe 130, separatory membrane framework guide member 170 is set, above-mentioned separatory membrane framework guide member 170 is connected on above-mentioned each top bonded block 140 and has guide portion 171, and guide sections 171 is used to guide the separating film module 10 that inserts in the aerobic groove of membrane sepn, is separatory membrane framework 100.

Guide sections 171 is arranged on separatory membrane framework guide member 170 central authorities, above-mentioned separatory membrane framework guide member 170 both sides are formed with at least one bullport 171a respectively, above-mentioned bullport is corresponding with the top connecting hole 140a of each top bonded block 140, connects to insert screw.

Be connected with in above-mentioned separatory membrane framework 100 and above-mentioned each induction pipe 130 1 sides and discharge 190, be used for and be discharged to separating film module 10 outsides from the treating water that above-mentioned each induction pipe 130 is carried.Above-mentioned discharge 190 two ends are provided with the flange 191 that is connected with flange 132 contact and the screw of above-mentioned induction pipe 130, are used to make direction conversion, part replacement, the alternately operating of above-mentioned discharge 190 to be more prone to.

Chassis body 110 upsides of above-mentioned separatory membrane framework 100 are provided with connecting hole 110a, on above-mentioned each connecting hole 110a, be connected with a plurality of lifting eye bolt a, be used to tangle the ring of lifting gear, above-mentioned lifting gear uses above-mentioned separatory membrane framework 100 when the aerobic groove of membrane sepn takes out or be placed into the aerobic groove.

In addition, said frame main body 110 center upper portion are connected with and intercept bar 112, be used to intercept lifting gear such as lifting machine and contact with chassis body 110 or separatory membrane 120 etc., above-mentioned lifting gear is used for separatory membrane framework 100 is taken out or be placed into aerobic groove from the aerobic groove of membrane sepn.The two ends of above-mentioned obstruct bar 112 are formed with respectively and intercept hole 112a, and above-mentioned obstruct hole is corresponding with each connecting hole 110a of said frame main body 110, is used to insert screw and connects, and removably is connected on the said frame main body 110 will intercept bar 112.

As Fig. 2 and shown in Figure 5, the diffuser 200 that above-mentioned separatory membrane framework 100 bottoms are provided with is provided with the diffuser main body 210 that forms outward appearance.

Above-mentioned diffuser main body 210 lays respectively at the four sides, stopping the four sides of above-mentioned diffuser 200, and above-mentioned diffuser 200 edge support diffusers 200.

In addition, above-mentioned diffuser main body 210 edges have a plurality of connecting hole 210a, and screw connects respectively, so that each diffuser main body 210 interconnects.

Here, each connecting hole 210a correspondence that each the connecting hole 110a that chassis body 110 bottoms of above-mentioned separatory membrane framework 100 have and diffuser main body 210 tops of above-mentioned diffuser 200 have, each connecting hole 110a of above-mentioned correspondence, 210a connect by screw above-mentioned separatory membrane framework 100 are connected with diffuser 200.

The above-mentioned diffuser main body 210 not only forward and backward diffuser main body 210 on the accompanying drawing has identical size, and left and right diffuser main body 210 also has identical size.Above-mentioned forward and backward diffuser main body 210 is compared smaller with left and right diffuser main body 210, this be for slynesses such as supply-pipe described later and nozzle are provided with and prevent with above-mentioned each form etc. and to interfere.

Above-mentioned front, rear, left and right diffuser main body 210 changes according to the position of seeing, so the size of diffuser main body 210 also can change according to the position.

On the other hand, above-mentioned diffuser main body 210 further is connected with at least one stirrup 211, is used to strengthen the intensity of above-mentioned diffuser main body 210, and prevents the alteration of form of above-mentioned diffuser main body 210.Above-mentioned stirrup 211 adopts spot welding or screw ways of connecting in order to reduce the physical deformation that diffuser main body 210 produces because of welding to greatest extent.

Above-mentioned stirrup 211 can be provided with or not be arranged on the diffuser main body 210, can have multiple diffuser main body 210 according to application target, the effect of diffuser main body 210, requirement that condition and user are set etc. like this.

Both sides, above-mentioned diffuser main body 210 bottom are connected with bottom bonded block 220 respectively, and this bottom bonded block is outstanding to the outside of above-mentioned diffuser main body 210, and above-mentioned each bottom bonded block 220 has a pair of as shown in the figure.

As shown in Figure 5, above-mentioned each bottom bonded block 220 bends to the  word shape, the shape of above-mentioned bottom bonded block 220 so long as each of not interfering mutually that ground connects above-mentioned diffuser 200 form in supply-pipe described later and diffuser guide member etc., just can be the Any shape outside the above-mentioned shape.

Have a plurality of bottom connecting hole 220a that are used for the screw connection on each face of above-mentioned each bottom bonded block 220 respectively, so that above-mentioned bottom bonded block 220 removably is connected with diffuser main body 210 and between respectively forming.

In addition, above-mentioned diffuser main body 210 both sides are connected with the supply-pipe 230 of hollow respectively, are used to flow into the air that fan is carried, and above-mentioned supply-pipe is positioned at above the above-mentioned bottom bonded block 220, and top contact of both sides and above-mentioned bottom bonded block 220.

Above-mentioned each supply-pipe 230 has a plurality of supply hole 230a that are used for exhausted air, is used for the air in the supply-pipe 230 is discharged to supply-pipe 230 outsides.Above-mentioned each supply-pipe 230 both sides have ostium 230b respectively, are used to make the outside air of carrying to flow in the supply-pipe 230.

For above-mentioned each each supply-pipe 230 above the bottom bonded block 220 is fixing, supply-pipe 230 both sides of above-mentioned hollow are respectively arranged with U font bolt 290, bolt 290 surrounds the both sides outside of above-mentioned each supply-pipe 230 respectively, and above-mentioned U font bolt 290 two ends are inserted into respectively among each bottom connecting hole 220a that above-mentioned each bottom bonded block 220 forms above.Above-mentioned each U font bolt 290 two ends are connected with nut (nut) 291 respectively.

On the other hand, in order to pass air into above-mentioned each supply-pipe 230 and above-mentioned leaked-in air to be supplied with each separatory membrane 120 of separatory membrane framework 100, in above-mentioned diffuser main body 210, be provided with between above-mentioned each supply-pipe 230 and be connected to a plurality of nozzles 240 of above-mentioned each supply-pipe 230.

Above-mentioned each nozzle 240 bottom surface have a plurality of nozzle bore 240a, are used to discharge the air in above-mentioned each nozzle 240.

Here, above-mentioned each nozzle 240 two ends are connected on each supply hole 230a of above-mentioned each supply-pipe 230, so that the air in above-mentioned each supply-pipe 230 flow into respectively in each nozzle 240 by each supply hole 230a.

Bottom in the above-mentioned diffuser main body 210 is connected with a plurality of steady arms 250, is used to support each nozzle 240, and prevents the distortion of above-mentioned diffuser main body 210, and strengthen intensity.Above-mentioned each steady arm 250 two ends have supporting hole 250a respectively, and above-mentioned supporting hole is corresponding with the connecting hole 210a of above-mentioned diffuser main body 210, connect to insert screw, and each steady arm 250 removably is connected respectively on the above-mentioned diffuser main body 210.

Diffuser main body 210 both sides of above-mentioned diffuser 200, on the position between above-mentioned each bottom bonded block 220, be respectively arranged with diffuser guide member 260, above-mentioned diffuser guide member 260 is connected on above-mentioned each bottom bonded block 220 and has guide portion 261, and guide sections 261 is used to guide the separating film module 10 that inserts, is diffuser 200 in the aerobic groove of membrane sepn.

Guide sections 261 is arranged on diffuser guide member 260 central authorities, above-mentioned diffuser guide member 260 both sides are formed with at least one bullport 261a respectively, above-mentioned bullport is corresponding with each bottom connecting hole 220a of each bottom bonded block 220, to insert coupling screw.

Be connected with gas blow head 270 respectively in above-mentioned each supply-pipe 230 1 side, above-mentioned gas blow head is used to make the air of carrying from fan to flow in each supply-pipe 230, to play the air flow circuit effect.

In addition, above-mentioned each supply-pipe 230 opposite side are connected with mud and discharge 280, are used for the mud in each supply-pipe 230 and each nozzle 240 are discharged to diffuser 200 outsides.

Just, above-mentioned each supply-pipe 230 both sides connect gas blow head 270 and mud and discharge 280, form a pair of.Gas blow head 270 that the formation that above-mentioned each supply-pipe 230 both sides connect is a pair of and mud are discharged 280 a mutual intersection and are positioned at above-mentioned each supply-pipe 230 both sides, be benchmark just with diffuser main body 210, be positioned at mutual diagonal, this is that extraneous air is smooth and easy to flow into each supply-pipe 230 and each nozzle in order to make, and discharges mud easily.

Above-mentioned each mud is discharged a specified location of 280 and is connected with valve 281, be used for opening and closing respectively above-mentioned each mud and discharge 280, above-mentioned valve 281 is manually operated manual valves or according to the automatic motorized valve of work of setting-up time, and these are according to operation purpose, effect and time etc. is set can uses any one.

As shown in Figure 6, in order to improve the efficient of above-mentioned separating film module 10, one deck separatory membrane framework 100 is set again on the top of the separating film module 10 that is connected with above-mentioned separatory membrane framework 100 and diffuser 200.

Effect of the present invention with said structure is as follows.

At first, when impregnated film separation system is worked, the former water that flows in the above-mentioned impregnated film separation system will pass through each groove, stop and eliminate the dissolved contaminants that contains in the above-mentioned former water, suspended solid, microorganism etc., thereby purifying treatment becomes clean treating water.

Here, the separating film module 10 in the aerobic groove of membrane sepn stops the suspended solid that contains in the former water and microorganism etc., should prevent each separatory membrane obturation of above-mentioned separating film module 10 simultaneously.

Just, along with the work of impregnated film separation system, off-gas pump and fan will be worked, and supply with to the diffuser 200 of separating film module 10 from the extraneous air that above-mentioned fan is carried.

The extraneous air of above-mentioned supply is transported to the separatory membrane framework 100 of above-mentioned separating film module 10 from diffuser 200, will prevent each the separatory membrane obturation that is provided with on the above-mentioned separatory membrane framework 100 like this.

In addition, by the inhalation power of above-mentioned off-gas pump, the former water in the aerobic groove of membrane sepn will pass through each separatory membrane, and suspended solid and the microorganism that contains in the above-mentioned former water is blocked in each separatory membrane 120 surface, makes above-mentioned former water be purified processing thus.

Above-mentioned separating film module 10 is made up of separatory membrane framework 100 and diffuser 200.Connection state between each of above-mentioned separatory membrane framework and diffuser 200 formed is described as follows.

The outward appearance of above-mentioned separatory membrane framework 100 is to be respectively arranged with chassis body 110 at the four sides, the edge of above-mentioned each chassis body 110 has a plurality of connecting hole 110a of mutual alignment, on above-mentioned each connecting hole 110a, insert screw respectively and connect, so that above-mentioned each chassis body 110 interconnects.

The both sides, upper and lower part of said frame main body 110 are connected with framework upper and lower part fixed part 150,160 respectively.

Just, make above-mentioned each framework upper and lower part fixed part 150, the upper and lower part supporting hole 150a that 160 both sides form respectively, 160a is corresponding with each connecting hole 110a of said frame main body 110, and at the upper and lower part of above-mentioned correspondence supporting hole 150a, insert coupling screw respectively among 160a and each connecting hole 110a, so that above-mentioned each framework upper and lower part fixed part 150,160 removably is connected the both sides, upper and lower part of chassis body 110.

In addition, at above-mentioned each framework upper and lower part fixed part 150,160 above and below with appointed interval be separated by a plurality of upper and lower parts fixing part 151,161 is set after, with above-mentioned each upper and lower part fixing part 151, each fixed orifices 151a of 161,161a is corresponding with each connecting hole 110a of chassis body 110, screw is inserted respectively to connect afterwards, so that above-mentioned each upper and lower part fixing part 151,161 removably are connected the above and below of each framework upper and lower part fixed part 150,160.

Therefore, between above-mentioned each upper and lower part fixing part 151,161, can insert the header 121 and the fixed part 122 of each separatory membrane 120, above-mentioned each separatory membrane 120 is arranged in the chassis body 110 with the appointed interval state of being separated by.

That is to say, between each top fixing part 151 of above-mentioned each framework upper fixed part 150, insert the header 121 of each separatory membrane 120 respectively, fix the top of above-mentioned each separatory membrane 120 thus; And between each bottom fixing part 161 of above-mentioned each framework bottom fixed part 160, insert the fixed part 122 of each separatory membrane 120 respectively, fix the bottom of above-mentioned each separatory membrane 120 thus.

On the other hand, with form a pair of top bonded block 140 removably respectively screw be connected the both sides, top of said frame main body 110, just each the top connecting hole 140a with above-mentioned each top bonded block 140 is corresponding with each connecting hole 110a of said frame main body 110, each top connecting hole 140a of above-mentioned correspondence is connected with insertion screw among each connecting hole 110a, thus each top bonded block 140 removably is connected to the both sides, top of said frame main body 110.

The both sides, top that each a pair of top bonded block 140 is connected said frame main body 110 will be formed, below the both sides of each induction pipe 130, contact above above-mentioned each top bonded block 140, and be formed on each angle bar 131 and above-mentioned each top bonded block 140 contacts side surfaces of 130 liang of side lower parts of above-mentioned each induction pipe.

Each top connecting hole 140a of above-mentioned each top bonded block 140 is corresponding with each angle bar hole 131a on each angle bar 131 that is formed on each induction pipe 130, each top connecting hole 140a of above-mentioned correspondence is connected with insertion screw among each angle bar hole 131a, so each induction pipe 130 removably is connected on above-mentioned each top bonded block 140.

In addition, the header 121 of above-mentioned each separatory membrane 120 and above-mentioned induction pipe 130 interconnect by a plurality of interconnecting pieces 180, the support 181 of above-mentioned each interconnecting piece 180 are inserted respectively be connected among a plurality of ostium 130a that above-mentioned induction pipe 130 bottom surfaces form.

The one side outside of above-mentioned each ostium 130a inner face and above-mentioned support 181 forms screw thread, so above-mentioned each support 181 can be connected among each ostium 130a by screw connecting mode.

In addition, connection section 182 1 ends of above-mentioned each interconnecting piece 180 are inserted respectively among the gully-hole 121a that is connected above-mentioned each header 121, simultaneously the other end of above-mentioned each connection section 182 is inserted respectively and be connected in the support 181, by above-mentioned each interconnecting piece 180 header 121 and induction pipe 130 are interconnected thus.

Above-mentioned each induction pipe 130 1 side connect the flange 132 with outlet orifice respectively, each flange 132 of above-mentioned each induction pipe 130 with state that a flange 191 of discharging 190 is in contact with one another under is connected by screw, so above-mentioned each induction pipe 130 and discharge 190 removably joined.

In addition, in a pair of each the top bonded block 140 of above-mentioned formation, on the position more outstanding than above-mentioned each induction pipe 130, removably connect the separatory membrane framework guide member 170 with guide portion 171 by screw, guide sections guides the insertion or the disengaging of above-mentioned separatory membrane framework 100 when inserting above-mentioned separatory membrane framework 100 in the aerobic groove of separatory membrane or breaking away from from aerobic groove.

On the other hand, the center upper portion of said frame main body 100 removably screw connect and have the obstruct bar 112 that intercepts hole 112a, above-mentioned obstruct hole is corresponding with each connecting hole 110a of said frame main body 110.

By above-mentioned each connection of forming, finish the making of separatory membrane framework 100.

On the other hand, the outward appearance that is positioned at the diffuser 200 of above-mentioned separatory membrane framework 100 bottoms is that the four sides is respectively arranged with diffuser main body 210.Above-mentioned each diffuser main body 210 edge have the connecting hole 210a of a plurality of mutual alignment, screw are inserted to be connected among above-mentioned each connecting hole 210a afterwards, so that above-mentioned each diffuser main body 210 removably interconnects.

Then, in both sides, above-mentioned diffuser main body 210 bottom bottom bonded block 220 is set respectively, after the bottom connecting hole 220a correspondence with each connecting hole 210a of above-mentioned diffuser main body 210 and above-mentioned each bottom bonded block 220, each connecting hole 210a of above-mentioned correspondence is connected with each bottom connecting hole 220a screw, makes above-mentioned each bottom bonded block 220 removably be connected the both sides, bottom of above-mentioned diffuser main body 210 thus.

In addition, supply-pipe 230 is separately positioned on above-mentioned diffuser main body 210 both sides, makes supply-pipe 230 be positioned at bonded block 220 tops, above-mentioned a pair of bottom.

Then, in above-mentioned each supply-pipe 230 both sides U font bolt 290 is set respectively, above-mentioned U font bolt 290 two ends are inserted among the bottom connecting hole 220a of above-mentioned each bottom bonded block 220, screw 291 is connected to U font bolt 290 two ends, makes above-mentioned each supply-pipe 230 under the state that is positioned at above-mentioned diffuser main body 210 both sides, removably be connected each bottom bonded block 220 top thus.

At this moment, above-mentioned each supply-pipe 230 is connected with a plurality of nozzles 240 with a plurality of nozzle bore 240a, just being separated by with appointed interval between above-mentioned each supply-pipe 230 is provided with a plurality of nozzles 240, connects the two ends of each nozzle 240 afterwards among a plurality of supply hole 230a that form on above-mentioned each supply-pipe 230.

The supply-pipe 230 that is connected with above-mentioned a plurality of nozzle 240 is connected bonded block 220 tops, above-mentioned bottom.

Bottom in the above-mentioned diffuser main body 230 connects at least one steady arm 250, and above-mentioned steady arm has supporting hole 250a, inserts by screw to connect, and above-mentioned supporting hole is corresponding with each connecting hole 210a of above-mentioned diffuser main body 210.

In addition, above-mentioned diffuser main body 210 both sides, on the position more outstanding than above-mentioned supply-pipe 230, the diffuser guide member 260 with guide portion 261 is connected on above-mentioned each bottom bonded block 220, and guide sections guiding diffuser 200 breaks away from or insertion from the aerobic groove of separatory membrane.

Just, each bottom connecting hole 220a of above-mentioned each bottom bonded block 220 is with after the bullport 260a of above-mentioned diffuser guide member 260 is corresponding, insert coupling screw among each bottom connecting hole 220a of above-mentioned correspondence and the bullport 260a, so that above-mentioned each diffuser guide member 260 removably is connected on each bottom bonded block 220.

On the other hand, for the ostium 230b with above-mentioned each supply-pipe 230 1 sides formation is communicated with, connect gas blow head 270 in above-mentioned supply-pipe 230 1 sides, simultaneously in order to be communicated with, connect mud discharge 280 at above-mentioned supply-pipe 230 opposite sides with ostium 230b that above-mentioned each supply-pipe 230 opposite side form.

At this moment, the gas blow head 270 that is connected with above-mentioned each supply-pipe 230 and mud discharge 280, are the center with above-mentioned diffuser main body 210, intersect mutually, just are arranged on above-mentioned each supply-pipe 230 both sides, are positioned on the diagonal mutually.

Therefore, the air that not only can carry from fan is supplied with in above-mentioned each supply-pipe 230 smoothly, and the mud in can above-mentioned each supply-pipe 230 and the mud in each nozzle 240 are discharged to diffuser 200 outsides easily by each mud discharge 280.

Above-mentioned each mud is discharged to be connected with respectively on 280 the specified location and is used to open and close above-mentioned each mud and discharges a valve 281 of 280.

Just, when above-mentioned separating film module 10 work, so that purificating raw water is processed into treating water, each valve 281 will cut out, and when the mud in above-mentioned each supply-pipe 230 of discharge and each nozzle 240, above-mentioned each valve 281 will be opened, so that the air that above-mentioned gas blow head 270 is supplied with flows in each supply-pipe 230 and each nozzle 240, discharges 280 discharge with mud by each mud.

Therefore, when closing above-mentioned each mud when discharging a valve 281 of 280, extraneous airs that fan is transported in above-mentioned each supply-pipe 230 will be more prone to supply with, and the extraneous air of above-mentioned supply will be from each supply-pipe 230 smooth delivery of power in each nozzle 240.

In addition, when opening above-mentioned each mud and discharge a valve 281 of 280, the extraneous air that fan is carried will flow in each supply-pipe 230 and each nozzle 240, comprises the mud in each supply-pipe 230 and each nozzle 240, all will discharge 280 to diffuser 200 outside discharges by above-mentioned each mud.

Here, it is that one or two opens and closes simultaneously that gas blow head 270 and mud are discharged a switching of 280, this is in order to improve the efficient of above-mentioned diffuser 200, to improve the efficient of separating film module 10, perhaps for the mud in each supply-pipe 230 and each nozzle 240 is discharged more smoothly.

By above-mentioned each connection of forming, finish the making of diffuser 200.

Here, finish respectively forming when being connected of above-mentioned separatory membrane framework 100 and diffuser 200, each connecting hole 110a that each chassis body 110 bottom of above-mentioned separatory membrane framework 100 form is corresponding respectively with each connecting hole 210a that each diffuser main body 210 top of above-mentioned diffuser 200 form, each connecting hole 110a of above-mentioned correspondence, when inserting coupling screw among the 210a, above-mentioned separatory membrane framework 100 will link to each other with diffuser 200, finishes the making of separating film module 10 thus.

The order of connection and method between each of above-mentioned separatory membrane framework 100 and diffuser 200 formed except aforesaid method, can change according to operation purpose, effect, field condition etc.

The working order of separating film module 10 of as above finishing the making of above-mentioned separatory membrane framework 100 and diffuser 200 is described as follows.

At first, the separating film module 10 that connects above-mentioned separatory membrane framework 100 and diffuser 200 by screw is put in the aerobic groove of membrane sepn after promoting by lifting gear.

Just, connect lifting eye bolt a respectively among each connecting hole 110a that the chassis body 110 of above-mentioned separatory membrane framework 100 forms above after, after above-mentioned each lifting eye bolt a tangles the ring of lifting gear, above-mentioned lifting gear upwards promoted or descend.

At this moment, guide portion 261 guiding that form on the diffuser guide member 260 of above-mentioned separating film module 10 by the guide portion 171 that forms on the separatory membrane framework guide member 170 of above-mentioned separatory membrane framework 100 and above-mentioned diffuser 200 are inserted in the aerobic groove of above-mentioned membrane sepn smoothly or are broken away from from described aerobic groove.

Separating film module 10 is being put under the state of the aerobic groove internal fixing of above-mentioned membrane sepn, during the operation impregnated film separation system, by fan when the diffuser 200 of separating film module 10 feeds extraneous airs, by the magnetism of off-gas pump, make the interior former water of the aerobic groove of membrane sepn each separatory membrane 120 by separatory membrane framework 100.

Treating water by above-mentioned each separatory membrane 120 will flow into header 121, and the treating water of above-mentioned inflow will flow in above-mentioned header 121, and by a plurality of gully-hole 121a, is discharged to induction pipe 130 from header 121.

At this moment, the treating water in the above-mentioned header 121 will flow to induction pipe 130 by above-mentioned each interconnecting piece 180.

Just, treating water will flow into the support 181 of above-mentioned each interconnecting piece 180 that links to each other with each gully-hole 121a of header 121, in the connection section 182 of above-mentioned interconnecting piece 180, flow, by the ostium 130a inflow induction pipe 130 of the induction pipe 130 that links to each other with above-mentioned connection section 182.

The treating water of above-mentioned inflow induction pipe 130 flows to discharges 190, by above-mentioned discharge 190, is discharged to the outside of separatory membrane framework 100, collects at last and handles in the tank.

On the other hand, the extraneous air that fan is carried is carried to each supply-pipe 230 of diffuser 200 by gas blow head 270, and the extraneous air of above-mentioned conveying is discharged from each supply-pipe 230 by the supply hole 230a of above-mentioned each supply-pipe 230.

The air of above-mentioned discharge flow in each nozzle 240 that links to each other with each supply-pipe 230, and a plurality of nozzle bore 240a by each nozzle 240 bottom surface forms are discharged to diffuser 200 outsides.

The air of above-mentioned discharge rises on one side, Yi Bian remove the foreign matters such as suspended solid that adhere on each separatory membrane 120 of above-mentioned separatory membrane framework 100, prevents that simultaneously suspended solid is attached on above-mentioned each separatory membrane 120.

Separating film module 10 is made up of above-mentioned separatory membrane framework 100 and diffuser 200, the suspended solid that contains in the former water can be eliminated or stops, thereby purifying treatment becomes clean treating water, and the work of above-mentioned separating film module 10 is proceeded along with impregnated film separation system work.

As mentioned above, above-mentioned high efficiency separation membrane assembly for waste water treatment of the present invention describes with reference to the illustration accompanying drawing, but the present invention is not limited to the embodiment and the accompanying drawing of this explanation record, in not breaking away from technical scope of the present invention, those skilled in the art can carry out various deformation.

Effect of the present invention

As mentioned above, the present invention utilizes screw to connect the diffusion barrier framework of separating film module and diffuser Connect, and each composition of above-mentioned diffusion barrier framework and each composition of diffuser are linked to each other with screw, more than the institute State the simple in structure of separating film module, and the making of above-mentioned separating film module is easy, and above-mentioned diffusion barrier The assembling work of assembly is easy.

Therefore, the expense that is used for the making of above-mentioned separating film module and assembling is cheap, and makes and assembling Required manpower reduces, and improves operating efficiency.

In addition, the respectively composition of separating film module can decompose, and above-mentioned each transportation that forms and carrying are easy, namely Make in very narrow space, also carry out easily making and the assembling work of separating film module.

In addition, because forming, each of separating film module utilize screw to connect, so can prevent above-mentioned separation Each composition of membrane module deforms, and therefore can improve the quality of above-mentioned separating film module, improves and uses Person's trust, and do not have the operating personnel of special technology also can easily, simply assemble and be connected separation Membrane module.

In separating film module, in order to connect header and induction pipe, use the interconnecting piece of forming by support and connection section, by above-mentioned interconnecting piece, can make header and induction pipe be connected and detached job connects more smoothly and firmly, so can use for a long time.

In addition, on the separatory membrane framework of separating film module and diffuser, be respectively arranged with guide portion, so can be more easily in the aerobic groove of membrane sepn, insert or take out separating film module, be separatory membrane framework and diffuser, just put into and promote and be more prone to, and separating film module can be placed on the tram.

By above-mentioned effect, the human consumer to product, be that the understanding of high efficiency separation membrane assembly for waste water treatment improves, improve trust to the human consumer of the said products, improve desire to purchase, be unusual useful technology.

Claims (14)

1, a kind of high efficiency separation membrane assembly for waste water treatment that is used for purifying treatment water drain water and dirty waste water is characterized in that, described separating film module has separatory membrane framework and diffuser;

Wherein, described separatory membrane framework has: a plurality of chassis body, and it is enclosing four sides and form outward appearance respectively, removably interconnects simultaneously, and the edge of described chassis body has a plurality of connecting holes; A plurality of separatory membranes, it is arranged in the described chassis body, is used to the suspended solid that stops that former water contains; Header, it is connected described each separatory membrane top, be used to collect the treating water by separatory membrane, and the both sides of header has gully-hole; Fixed part, it is connected described each separatory membrane bottom, is used to support the bottom of fixedly separated film; Framework upper and lower part fixed part, it is connected the both sides, upper and lower part of described chassis body respectively by screw; The top bonded block, it is arranged to side-prominent from the top two of described chassis body respectively, removably combination, and have a plurality of tops connecting hole; Induction pipe, the both sides, top that it is arranged on described chassis body removably are connected on the bonded block of described a pair of top; Interconnecting piece, it is arranged between described each header and each induction pipe, is used to interconnect described each header and induction pipe; Discharge head, it is connected on the described induction pipe and detachably, is used to form the treating water stream that treating water is discharged to the separating film module outside;

For each separatory membrane air supply to described separatory membrane framework, bottom at described separatory membrane framework is provided with diffuser, described diffuser has: a plurality of diffuser main bodys, it is enclosing four sides and form outward appearance respectively, removably interconnect simultaneously, the edge of described diffuser main body has a plurality of connecting holes; The bottom bonded block, it is arranged to side-prominent from the bottom two of described diffuser main body respectively, removably combination, and have a plurality of bottoms connecting hole; Supply-pipe, the both sides, bottom that it is separately positioned on described diffuser main body removably are connected on the bonded block of described a pair of bottom, are used to make air to flow into from the outside; A plurality of nozzles, it is connected with each supply-pipe in described diffuser body interior, and has a plurality of nozzle bores, so that the air of carrying from each supply-pipe supplies to the separatory membrane framework; Gas blow head, it is connected to described each supply-pipe one side and detachable, is used to form the extraneous air stream that extraneous air is transported to each supply-pipe; Mud is discharged head, and it is connected to described each supply-pipe opposite side and detachable, is used for the mud in each supply-pipe and each nozzle is discharged; Valve, it is connected described mud and discharges on the head, is used to open and close described mud and discharges head.

2, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1, it is characterized in that, the upper and lower face of framework upper and lower part fixed part is connected with a plurality of upper and lower parts fixing part at intervals and removably, by described each upper and lower part fixing part, each separatory membrane is provided with separately, and each header and each fixed part with described each separatory membrane inserts fixing simultaneously.

3, high efficiency separation membrane assembly for waste water treatment as claimed in claim 2, it is characterized in that, each upper and lower part fixing part has at least one fixed orifices that is used to insert screw, so that it is connected the above and below of upper and lower fixed part of framework by screw, and a side of described each fixed orifices has step layer, and the screw head that is used to prevent to insert connection is outstanding.

4, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, interconnecting piece has: support, and it inserts connection and is fixed in each ostium of each induction pipe bottom formation; Connection section, the one end inserts and is connected on the described support, and the other end inserts and is connected in the gully-hole that forms on each header; At least one slot part, it is formed on the periphery of connection section of described support one side, and is connected with sealing element, to seal the slit between described support and the connection section.

5, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1, it is characterized in that, the bottom, both sides of each induction pipe is connected with angle bar respectively, described angle bar has at least one angle bar hole corresponding with each connecting hole of described each top bonded block, so that described each induction pipe removably is connected on described each top bonded block.

6, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1, it is characterized in that, the both sides, top of separatory membrane framework are provided with separatory membrane framework guide member, described separatory membrane framework guide member removably is connected on the bonded block of a pair of top, and the central authorities of described separatory membrane framework guide member have guide portion, are used to guide described separatory membrane framework to be inserted in the aerobic groove of membrane sepn or break away from the aerobic groove of membrane sepn.

7, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, each chassis body is connected with stirrup, is used to strengthen the intensity of described chassis body, and prevents warpage.

8, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, is connected with the obstruct bar in the center upper portion of the separatory membrane framework that is connected with a plurality of chassis body, is used to prevent that lifting gear from contacting with each separatory membrane.

9, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1, it is characterized in that, each supply-pipe both sides is respectively arranged with U font bolt, surround the both sides of described each supply-pipe respectively, and described U font bolt two ends are inserted into respectively in each bottom connecting hole that described each bottom bonded block forms above, described U font bolt two ends are connected with nut respectively, by described U font bolt and nut, described each supply-pipe removably can be connected above the bonded block of a pair of bottom.

10, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1, it is characterized in that, the both sides, bottom of diffuser are provided with the diffuser guide member, described diffuser guide member removably is connected on the bonded block of a pair of bottom, and the central authorities of described diffuser guide member have guide portion, are used to guide described diffuser to be inserted in the aerobic groove of membrane sepn or break away from the aerobic groove of membrane sepn.

11, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, each gas blow head and each mud are discharged the both sides that head is connected described each supply-pipe, and is that benchmark is positioned on the diagonal with the diffuser main body.

12, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, the valve that is connected on the mud discharge head is a motorized valve.

13, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, each diffuser main body is connected with stirrup, is used to strengthen the intensity of described diffuser main body, and prevents warpage.

14, high efficiency separation membrane assembly for waste water treatment as claimed in claim 1 is characterized in that, the intravital bottom of diffuser master is connected with a plurality of steady arms, is used to support each nozzle, prevents the diffuser bulk deformation and strengthens intensity.

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