CN217909795U - Novel submergence formula milipore filter subassembly - Google Patents

Abstract

The utility model discloses a novel immersed ultrafiltration membrane component, which comprises a hollow water storage box, an aeration unit and a collecting and releasing unit; hollow water storage box: the number of the water storage boxes is two, water outlet ports on the right side face of the hollow water storage boxes are respectively provided with a water outlet pipe, a three-way drain pipe is movably sleeved between vertical pipe bodies of the two water outlet pipes, ultrafiltration membrane wires which are uniformly distributed are arranged between the opposite inner side faces of the two hollow water storage boxes, and the upper end and the lower end of each ultrafiltration membrane wire respectively extend into the hollow water storage boxes on the same side; an aeration unit: the air inlet pipe is respectively arranged at the air inlet of the left side surfaces of the two hollow water storage boxes; this novel submergence formula milipore filter subassembly can make the milipore filter silk be in the motion state through even aeration and mechanical drive's mode, promotes filtering work's efficiency when preventing that impurity from piling up at the milipore filter silk surface, ensures filtration quality, and simple structure is practical.

Description

Novel submergence formula milipore filter subassembly

Technical Field

The utility model relates to an milipore filter technical field specifically is a novel submergence formula milipore filter subassembly.

Background

Submerged ultrafiltration is a submerged ultrafiltration system developed based on a submerged (Flow Split) ultrafiltration membrane module. SMF is an improved MBR (membrane bioreactor) process, and a membrane module is used for replacing a secondary sedimentation tank in the traditional process to carry out solid-phase and liquid-phase separation.

Compared with the common purification equipment, the device has smaller floor area, does not need to set solid-liquid separation equipment such as precipitation and filtration, and ensures that the whole system has simple flow and is easy to integrate. While ultrafiltration can have many applications, large scale water treatment is generally focused on: drinking water supply terminals, surface water treatment, seawater treatment and fluid recycling.

The existing immersed ultrafiltration membrane component can cause water flow to be reduced because a large amount of filtered impurities are accumulated on the outer surface of an ultrafiltration membrane wire in the filtering process, so that the overall efficiency and the process of filtering work are influenced, and therefore the novel immersed ultrafiltration membrane component is provided.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a novel submergence formula milipore filter subassembly, can make the milipore filter silk be in the motion state through even aeration and mechanical drive's mode, promote the efficiency of filtering work when preventing that impurity from piling up at the milipore filter silk surface, ensure the filtration quality, simple structure is practical, can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model provides a following technical scheme: a novel immersed ultrafiltration membrane component comprises a hollow water storage box, an aeration unit and a collecting and releasing unit;

hollow water storage box: the number of the water storage boxes is two, water outlet ports on the right side face of the hollow water storage boxes are respectively provided with a water outlet pipe, a three-way drain pipe is movably sleeved between vertical pipe bodies of the two water outlet pipes, ultrafiltration membrane wires which are uniformly distributed are arranged between the opposite inner side faces of the two hollow water storage boxes, and the upper end and the lower end of each ultrafiltration membrane wire respectively extend into the hollow water storage boxes on the same side;

an aeration unit: the water storage box comprises air inlet pipes and three-way air supply pipes, wherein the air inlet pipes are respectively arranged at air inlet positions on the left side surfaces of the two hollow water storage boxes, and the three-way air supply pipes are movably sleeved between vertical pipe bodies of the two air inlet pipes;

a storage unit: set up respectively in three way drainpipe and three way air supply pipe's inside, can make the ultrafiltration membrane silk be in the motion state through even aeration and mechanical drive's mode, promote filtration work's efficiency when preventing that impurity from piling up at the ultrafiltration membrane silk surface, ensure filtration quality, simple structure is practical.

Further, the aeration unit still includes the aeration shunt tubes, the aeration shunt tubes sets up respectively in the evenly reposition of redundant personnel department of seting up of two horizontal body extrados of intake pipe, and the aeration shunt tubes all extends to the hollow retaining box outside at place, can prevent through the aeration that the impurity that filters out from piling up the surface at ultrafiltration membrane silk.

Further, receive and release the unit and include vertical extension board, curved bar, gangbar and round pin post, vertical extension board sets up respectively in the inside of three way drain pipe and tee bend air supply pipe, and the inner arc wall middle part of three way drain pipe and tee bend air supply pipe all is connected with the curved bar through the bearing rotation, and the outside end of curved bar is passed through the bearing and is connected with the vertical extension board rotation of homonymy, all rotates on two bent axles of same curved bar and is connected with the gangbar, and the delivery port department of two outlet pipes and the air inlet department of two intake pipes all are equipped with the round pin post, and the commentaries on classics hole of four gangbar outside end departments rotates with the round pin post of homonymy respectively and is connected, can promote the efficiency of filtering operation.

Furthermore, the retraction unit further comprises a motor, the motor is respectively arranged in the middle of the outer arc surfaces of the three-way drain pipe and the three-way air supply pipe, an output shaft of the motor is fixedly connected with the curved rod at the same side, and an input end of the motor is electrically connected with an output end of the external control switch group and can drive the curved rod to rotate.

Further, the outer cambered surface middle part of three way drain pipe and three way air supply pipe all is equipped with the external screw thread ring, and the equal threaded connection in outside of external screw thread ring has the buckler, and inside two motors were located the buckler of homonymy respectively, can provide water protection for the motor to avoid the motor short circuit and influence the filtration process.

Furthermore, sealing rings are arranged in the upper pipe orifice and the lower pipe orifice of the three-way drain pipe and the upper pipe orifice and the lower pipe orifice of the three-way air supply pipe, so that the leakage of circulation media inside the three-way drain pipe or the three-way air supply pipe can be prevented.

Furthermore, the outer cambered surfaces of the three-way drain pipe and the three-way air supply pipe are provided with mounting plates which are symmetrical up and down, and the middle parts of the mounting plates are provided with mounting holes, so that the ultrafiltration membrane component can be fixedly mounted.

Compared with the prior art, the beneficial effects of the utility model are that: this novel submergence formula milipore filter subassembly has following benefit:

1. use outside bolt to be connected mounting panel and installation position through the mounting hole, the realization is fixed to this milipore filter subassembly's installation, when this milipore filter subassembly soaks the inside of external pressure water tank, the effect hydrone of pressurized force can permeate the inside of milipore filter silk and hold the inside of hollow retaining box gradually and discharge to the outside through outlet pipe and tee bend drain pipe in proper order, and impurity in the external pressure water tank then can't permeate the milipore filter silk and is kept apart the inside of external pressure water tank, with this realization filtering capability, in addition, personnel can be with outside gas through the tee bend air supply pipe, the inside that outside pressure water tank was sent into to intake pipe and aeration shunt tubes, make the milipore filter silk receive the impact of air current and take place slight shake, with the impurity of exempting from piles up at the surface of milipore filter silk.

2. In addition, regulation and control through external control switch group, the motor operation drives the knee lever and takes place rotatoryly, the gangbar can be in the slope swing state of reciprocating from top to bottom along with the rotation of knee lever this moment, thereby drive two hollow water storage boxes through the linkage effect of outlet pipe and intake pipe and make a round trip to press close to or keep away from, and then make the ultrafiltration membrane silk constantly relax or tighten, the inside of the inside hydrone of ultrafiltration membrane silk can be more rapid entering hollow water storage box under the effect of outside pressure this moment, promote the efficiency of filtration work, the buckler can provide water proof function for the motor, so as to avoid the motor short circuit and influence the filtration process, the leakproofness of tee bend drain pipe or tee bend air supply pipe kneck then can be promoted to the sealing washer, in order to avoid the inside circulation medium leakage of tee bend drain pipe or tee bend air supply pipe.

Drawings

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a schematic view of the inner cross-section structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure at the position A of the present invention;

FIG. 4 is an enlarged schematic view of the structure at B of the present invention;

fig. 5 is an enlarged schematic view of the structure at position C of the present invention.

In the figure: the device comprises a hollow water storage box 1, a water outlet pipe 2, a three-way water discharge pipe 3, an ultrafiltration membrane wire 4, an aeration unit 5, an air inlet pipe 51, a three-way air supply pipe 52, an aeration shunt pipe 53, a take-up and pay-off unit 6, a longitudinal support plate 61, a curved rod 62, a linkage rod 63, a pin column 64, a motor 65, an external thread ring 7, a waterproof cover 8, a sealing ring 9, a mounting plate 10 and a mounting hole 11.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present embodiment provides a technical solution: a novel immersed ultrafiltration membrane component comprises a hollow water storage box 1, an aeration unit 5 and a collecting and releasing unit 6;

hollow water storage box 1: the number of the water storage boxes is two, the water outlet on the right side face of each hollow water storage box 1 is provided with a water outlet pipe 2, a three-way drain pipe 3 is movably sleeved between the vertical pipe bodies of the two water outlet pipes 2, ultrafiltration membrane wires 4 which are uniformly distributed are arranged between the opposite inner side faces of the two hollow water storage boxes 1, the upper end and the lower end of each ultrafiltration membrane wire 4 extend to the interiors of the hollow water storage boxes 1 on the same side respectively, when the ultrafiltration membrane assemblies are immersed in an external pressure water tank, water molecules under the action of pressure can permeate into the interiors of the ultrafiltration membrane wires 4 and gradually enter the interiors of the hollow water storage boxes 1 and are discharged to the exterior through the water outlet pipes 2 and the three-way drain pipes 3 in sequence, and impurities in the external pressure water tank cannot permeate into the ultrafiltration membrane wires 4 and are isolated in the external pressure water tank, so that the filtering function is realized;

the aeration unit 5: the aeration unit 5 further comprises aeration dividing pipes 53, wherein the aeration dividing pipes 53 are respectively arranged at the positions of dividing ports uniformly formed in the outer arc surfaces of the transverse pipe bodies of the two air inlet pipes 51, the aeration dividing pipes 53 all extend to the outside of the hollow water storage box 1 where the two air inlet pipes 51 are located, and personnel can send outside air into the inside of an external pressure water tank through the three-way air supply pipe 52, the air inlet pipe 51 and the aeration dividing pipes 53, so that the ultrafiltration membrane filaments 4 are slightly shaken under the impact of air flow, and filtered impurities are prevented from being accumulated on the outer surface of the ultrafiltration membrane filaments 4;

the storing and releasing unit 6: the collecting and releasing unit 6 comprises a longitudinal support plate 61, a curved rod 62, linkage rods 63 and pin columns 64, the longitudinal support plate 61 is respectively arranged inside the three-way drainage pipe 3 and the three-way air supply pipe 52, the middle parts of the inner arc walls of the three-way drainage pipe 3 and the three-way air supply pipe 52 are rotatably connected with the curved rod 62 through bearings, the outer end of the curved rod 62 is rotatably connected with the longitudinal support plate 61 at the same side through bearings, the linkage rods 63 are rotatably connected on two crankshafts of the same curved rod 62, the pin columns 64 are respectively arranged at the water outlets of the two water outlet pipes 2 and the air inlets of the two air inlet pipes 51, rotating holes at the outer end of the four linkage rods 63 are respectively rotatably connected with the pin columns 64 at the same side, the collecting and releasing unit 6 also comprises a motor 65, the motor 65 sets up respectively in the extrados middle part of three way drainpipe 3 and three way air supply pipe 52, the output shaft of motor 65 and the curved bar 62 fixed connection of homonymy, the output of external control switch group is connected to the input electricity of motor 65, regulation and control through the external control switch group, motor 65 operation drives curved bar 62 and takes place rotatoryly, gangbar 63 can be along with curved bar 62's rotation and in the tilting swing state of reciprocating from top to bottom this moment, thereby drive two hollow retaining boxes 1 through the linkage effect of outlet pipe 2 and intake pipe 51 and make a round trip to press close to or keep away from, and then make ultrafiltration membrane silk 4 constantly relax or tighten, the hydrone of the inside of ultrafiltration membrane silk 4 this moment can be more rapid the inside of entering hollow retaining box 1 under the effect of external pressure, promote filtering operation's efficiency.

Wherein: the outer cambered surface middle part of three way drainpipe 3 and three way air supply pipe 52 all is equipped with external screw thread ring 7, and the equal threaded connection in outside of external screw thread ring 7 has buckler 8, and two motors 65 are located the buckler 8 inside of homonymy respectively, can provide water proof function for motor 65 to avoid motor 65 short circuit and influence the filtration process.

Wherein: sealing rings 9 are arranged in the upper pipe orifice and the lower pipe orifice of the three-way drain pipe 3 and the upper pipe orifice and the lower pipe orifice of the three-way air supply pipe 52, so that the sealing performance at the joint of the three-way drain pipe 3 or the three-way air supply pipe 52 can be improved, and the leakage of circulation media inside the three-way drain pipe 3 or the three-way air supply pipe 52 is avoided.

Wherein: the outer cambered surfaces of the three-way drain pipe 3 and the three-way air supply pipe 52 are respectively provided with an installing plate 10 which is symmetrical up and down, the middle part of the installing plate 10 is respectively provided with an installing hole 11, the installing plate 10 is connected with an installing part through the installing hole 11 by using an external bolt, and the installation and the fixation of the ultrafiltration membrane component are realized.

The utility model provides a pair of novel submergence formula milipore filter subassembly's theory of operation as follows: the installation plate 10 is connected with the installation part through the installation hole 11 by using an external bolt to realize the installation and fixation of the ultrafiltration membrane component, when the ultrafiltration membrane component is immersed in an external pressure water tank, water molecules can permeate into the ultrafiltration membrane wire 4 under the action of pressure and are gradually stored in the hollow water storage box 1 and are discharged to the outside through the water outlet pipe 2 and the three-way drain pipe 3 in sequence, and impurities in the external pressure water tank cannot permeate into the ultrafiltration membrane wire 4 and are isolated in the external pressure water tank, so that the filtering function is realized, in addition, personnel can send external air into the internal of the external pressure water tank through the three-way air supply pipe 52, the air inlet pipe 51 and the aeration shunt pipe 53, so that the ultrafiltration membrane wire 4 is slightly shaken under the impact of air flow, the filtered impurities are prevented from being accumulated on the outer surface of the ultrafiltration membrane wire 4, in addition, through the regulation and control of external control switch group, motor 65 operation drives curved bar 62 and takes place rotatoryly, gangbar 63 can be in the tilt swing state of reciprocating from top to bottom along with curved bar 62's rotation this moment, thereby drive two hollow water storage box 1 through the linkage effect of outlet pipe 2 and intake pipe 51 and make a round trip to be close to or keep away from, and then make ultrafiltration membrane silk 4 constantly relax or tighten, the inside of the inside hydrone of ultrafiltration membrane silk 4 can more rapid entering hollow water storage box 1 under the effect of external pressure this moment, promote the efficiency of filtration work, buckler 8 can provide waterproof guard action for motor 65, in order to avoid motor 65 short circuit to influence the filtration process, sealing washer 9 then can promote the leakproofness of tee bend drain pipe 3 or tee bend air supply pipe 52 kneck, in order to avoid the inside circulation medium leakage of tee bend drain pipe 3 or tee bend air supply pipe 52.

It should be noted that the motor 65 disclosed in the above embodiment is an N20 deceleration motor, and the external control switch set is provided with a switch button corresponding to the motor 65 for controlling the switch operation thereof.

The above-mentioned only be the embodiment of the present invention, not consequently the restriction of the patent scope of the present invention, all utilize the equivalent structure or equivalent flow transform made of the content of the specification and the attached drawings, or directly or indirectly use in other relevant technical fields, all including in the same way the patent protection scope of the present invention.

Claims (7)

1. A novel immersed ultrafiltration membrane component is characterized in that: comprises a hollow water storage box (1), an aeration unit (5) and a collecting and releasing unit (6);

hollow water storage box (1): the number of the ultrafiltration membrane filaments is two, water outlet pipes (2) are arranged at water outlet positions on the right side surfaces of the hollow water storage boxes (1), three-way drain pipes (3) are movably sleeved between vertical pipe bodies of the two water outlet pipes (2), uniformly distributed ultrafiltration membrane filaments (4) are arranged between the opposite inner side surfaces of the two hollow water storage boxes (1), and the upper ends and the lower ends of the ultrafiltration membrane filaments (4) extend into the hollow water storage boxes (1) on the same side respectively;

aeration unit (5): the water storage box comprises air inlet pipes (51) and three-way air supply pipes (52), wherein the air inlet pipes (51) are respectively arranged at air inlet positions on the left side surfaces of two hollow water storage boxes (1), and the three-way air supply pipes (52) are movably sleeved between vertical pipe bodies of the two air inlet pipes (51);

storage unit (6): are respectively arranged inside the three-way water drainage pipe (3) and the three-way air supply pipe (52).

2. A novel submerged ultrafiltration membrane module as claimed in claim 1, wherein: aeration unit (5) still include aeration shunt tubes (53), aeration shunt tubes (53) set up respectively in the evenly reposition of redundant personnel department of seting up of two intake pipe (51) horizontal body extrados, and aeration shunt tubes (53) all extend to the hollow retaining box (1) outside at place.

3. The novel submerged ultrafiltration membrane module as claimed in claim 1, wherein: receive and release unit (6) including vertical extension board (61), curved bar (62), gangbar (63) and round pin post (64), vertical extension board (61) set up respectively in the inside of tee bend drain pipe (3) and tee bend air supply pipe (52), the inner arc wall middle part of tee bend drain pipe (3) and tee bend air supply pipe (52) all is connected with curved bar (62) through the bearing rotation, the outside end of curved bar (62) is passed through the bearing and is rotated with vertical extension board (61) of homonymy and be connected, all rotate on two bent axles of same curved bar (62) and be connected with gangbar (63), the delivery port department of two outlet pipes (2) and the air inlet department of two intake pipes (51) all are equipped with round pin post (64), the commentaries on classics hole of four gangbar (63) outside end department rotates with round pin post (64) of homonymy respectively and is connected.

4. A novel submerged ultrafiltration membrane module as claimed in claim 3, wherein: the retraction unit (6) further comprises a motor (65), the motor (65) is arranged in the middle of the outer arc face of the three-way drainage pipe (3) and the outer arc face of the three-way air supply pipe (52) respectively, an output shaft of the motor (65) is fixedly connected with a curved rod (62) on the same side, and an input end of the motor (65) is electrically connected with an output end of an external control switch group.

5. The novel submerged ultrafiltration membrane module of claim 4, wherein: the outer cambered surface middle part of tee bend drain pipe (3) and tee bend air supply pipe (52) all is equipped with external screw thread ring (7), and the equal threaded connection in outside of external screw thread ring (7) has buckler (8), and two motors (65) are located inside buckler (8) of homonymy respectively.

6. The novel submerged ultrafiltration membrane module as claimed in claim 1, wherein: and sealing rings (9) are arranged in the upper and lower pipe orifices of the three-way drainage pipe (3) and the upper and lower pipe orifices of the three-way gas supply pipe (52).

7. A novel submerged ultrafiltration membrane module as claimed in claim 1, wherein: the outer cambered surfaces of the three-way drain pipe (3) and the three-way air supply pipe (52) are provided with mounting plates (10) which are symmetrical up and down, and the middle parts of the mounting plates (10) are provided with mounting holes (11).

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