CN212651634U - Preparation facilities of micro-partition hollow fiber membrane subassembly - Google Patents

Abstract

The utility model provides a preparation facilities of micro-partition hollow fiber membrane subassembly, include: the operating platform comprises a base and a pair of supporting rods arranged on the base; the turning film frame comprises a pair of vertical rods and a rotating shaft arranged between the vertical rods; the two ends of the rotating shaft are rotatably connected between the pair of supporting rods and are suitable for enabling the vertical rod to rotate relative to the supporting rods; two ends of the vertical rod are connected with a rectangular frame; the lifting hook is detachably arranged on the rectangular frame; the suspender is detachably connected to the bottom of the lifting hook and is suitable for enabling the membrane filaments to be uniformly distributed along the lower surface of the suspender; and a limiting comb, a membrane wire comb and a layering plate for membrane wire carding are further arranged below the hanging rod. The utility model discloses a preparation facilities of micro-partition hollow fiber membrane subassembly, it is even that easily comb and membrane silk are arranged, reduces the entanglement between the membrane silk and makes the even beam forming of membrane silk.

Description

Preparation facilities of micro-partition hollow fiber membrane subassembly

Technical Field

The utility model belongs to the sewage treatment field, concretely relates to micro-partition hollow fiber membrane subassembly.

Background

The membrane bioreactor is a high-efficiency wastewater treatment system organically combining a traditional biological treatment technology and a membrane separation technology, and has the advantages of stable and high-quality effluent, easiness in automatic control and the like compared with the traditional biological treatment technology.

In the traditional production process of the membrane component, the problems of uneven membrane filament arrangement and irregular distribution often exist, the phenomenon of dislocation and entanglement exists, the accumulation of fiber hairs is serious in operation, and the water yield and the use cost are influenced; the pouring sealant and the pre-sealant are not completely cast, so that the quality problem is caused, the production cost is increased, and the production efficiency is reduced; the filling rate is not easy to control. For example, chinese patent publication No. CN108744982A discloses a hollow fiber membrane module and a method for manufacturing the same, which realizes the conventional process by pore protection, root protection and pre-gel casting of membrane filaments, but does not finish and arrange the membrane filaments, so that the membrane module manufactured by the method is easy to generate dislocation and entanglement, and the sealant is easy to permeate.

In view of this, it is urgently needed to provide a preparation device of a micro-partition hollow fiber membrane module which is easy to comb and has uniform membrane filament arrangement.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model aims to solve the technical problem that a preparation facilities of micro-partition hollow fiber membrane subassembly that easy carding and membrane silk were arranged evenly is provided.

The utility model discloses a preparation facilities of micro-partition hollow fiber membrane subassembly, include:

the operating platform comprises a base and a pair of supporting rods arranged on the base;

the turning film frame comprises a pair of vertical rods and a rotating shaft arranged between the vertical rods; the two ends of the rotating shaft are rotatably connected between the pair of supporting rods and are suitable for enabling the vertical rod to rotate relative to the supporting rods; two ends of the vertical rod are connected with rectangular frames;

the lifting hook is detachably arranged on the rectangular frame;

the hanging rod is detachably connected to the bottom of the lifting hook and is suitable for enabling the membrane filaments to be uniformly distributed along the lower surface of the hanging rod;

a limiting comb, a membrane silk comb and a layering plate for membrane silk carding are further arranged below the hanging rod; the limiting comb and the membrane silk comb are used for combing membrane silks along the length direction, and the layered plate is used for combing membrane silks along the width direction of the hanging rod.

Further, the lifting hook is provided with an installation part and a working part which are integrally connected; the working part of the lifting hook is concave and is suitable for the connection of the lifting rod; the installation part is T-shaped and is suitable for being connected with the rectangular frame.

Furthermore, the length of the limiting comb is greater than that of the membrane silk comb, and the comb tooth pitch of the limiting comb is greater than that of the limiting comb.

Furthermore, the length of the limiting comb is more than or equal to that of the hanging rod; the length of the comb teeth of the limiting comb is larger than or equal to the width of the hanging rod.

Furthermore, the number of the layered plates is multiple, and the spacing between the layered plates is the same.

Further, still including the side pipe of casting of gluing in advance, the side pipe of casting of gluing in advance one side is connected with the membrane silk, the side pipe of casting of gluing in advance has the die cavity, fill sealed glue in the die cavity for the encapsulation membrane silk.

Further, the both ends of gluing casting side pipe in advance have the installation department, the installation department is suitable for with gluing casting side pipe in advance can dismantle connect with on the lifting hook.

Furthermore, the device also comprises a flow blocking square pipe, wherein the flow blocking square pipe is arranged on the other side of the pre-glued casting square pipe relative to the membrane wire.

Furthermore, the bottom of the operating platform is provided with a support leg.

Above-mentioned technical scheme of the utility model, compare prior art and have following advantage:

(1) micro-partition hollow fiber membrane module's preparation facilities, comb through the membrane silk and comb many times the membrane silk with spacing comb, realize arranging evenly between the membrane silk, comb into evenly distributed's membrane silk bundle again through the tooth pitch difference between membrane silk comb and the spacing comb, through the tooth pitch of adjustment membrane silk comb, can adjust the filling rate, realized the rational overall arrangement of micro-partition hollow fiber membrane module interior membrane silk.

(2) Micro-partition hollow fiber membrane module's preparation facilities, the comb silk makes and carries out the pre-cementing after the membrane silk is evenly arranged and casts and the casting glue, epoxy glue changes the infiltration and gets into the membrane silk clearance, the micro-partition membrane module is not perforated, the membrane silk does not come unstuck, the cementing is thoroughly cast.

(3) Micro-partition hollow fiber membrane module's preparation facilities, the layering board through interval distribution falls into several layers with the micro-partition subassembly, optimizes micro-partition hollow fiber membrane module's antipollution performance.

Drawings

FIG. 1 is a first schematic structural diagram of a micro-partition hollow fiber membrane module manufacturing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram II of a micro-partition hollow fiber membrane module provided in an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a micro-segmented hollow fiber membrane module according to an embodiment of the present invention;

wherein, 1, an operation table; 2. a base; 3. a strut; 4. turning over the film frame; 5. erecting a rod; 6. a rotating shaft; 7. a rectangular frame; 8. a hook; 9. membrane silk; 10. a limiting comb; 11. combing the membrane filaments; 13. a laminate; 14. pre-gluing and casting a square tube; 15. a flow blocking square pipe; 16. a support leg; 17. a boom; 18. an installation part.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying 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.

The micro-partition hollow fiber membrane module manufacturing apparatus of the present embodiment, as shown in fig. 1-2, includes a base 2, a turning membrane frame 4, and a hook 8.

The operation panel 1 includes base 2 and locates a pair of branch 3 on the base 2, operation panel 1 bottom is equipped with stabilizer blade 16.

Upset membrane frame 4 includes a pair of pole setting 5 and locates pivot 6 between a pair of pole setting 5: two ends of the rotating shaft 6 are rotatably connected between the pair of supporting rods 3 and rotate around a connecting point between the two supporting rods; the top and the bottom of the upright rod 5 are connected with a rectangular frame 7, and the rectangular frame 7 is detachably connected with a lifting hook 8. The hook 8 is adapted to mount a boom 17 and membrane wires 9; the suspender 17 is detachably connected to the bottom of the lifting hook 8, so that the membrane wires 9 are uniformly distributed along the lower surface of the suspender 17. Specifically, the membrane wires 9 are distributed on the hanger bar 17 along the length and width directions of the hanger bar 17. Rotate round pivot 6 through upset membrane frame 4, dismantle and install in proper order lifting hook 8 combs the both ends of membrane silk 9, avoids membrane silk 9 intertwine in manufacturing process.

As a further preferable mode of the present embodiment, in order to facilitate the connection of the boom 17, the hook 8 has a mounting portion 18 and a working portion integrally connected; the working part of the lifting hook 8 is 'concave' and is suitable for the connection of the suspender 17, and the mounting part 18 of the lifting hook is T-shaped and is suitable for being connected with the rectangular frame.

The film silk comb structure is characterized by further comprising a limiting comb 10 for arranging a film silk comb 11, the film silk comb 11 and a layering plate 13, wherein the limiting comb 10, the film silk comb 11 and the layering plate 13 are all located below the hanging rod 17; the limiting comb 10 and the membrane wire comb 11 are used for carding the membrane wires 9 along the length direction of the hanging rod 17, and the layered plate 13 is used for carding the membrane wires 9 along the width direction of the hanging rod 17. The same space and regular arrangement of the membrane filaments are ensured through the carding process of the membrane filament comb 11. The membrane silk combs 11 in this embodiment are multiple, and a plurality of membrane silk combs 11 are distributed on the membrane silk 9 at intervals to comb the membrane silk 9, so as to ensure that all the membrane silks 9 are combed, and the limiting comb 10 is located above the membrane silk combs 11, and plays a certain role in positioning.

As a further preferable mode of the present embodiment, in order to make the arrangement between the film wires 9 more uniform, the length of the limiting comb 10 is longer than the length of the film wire comb 9, and the comb tooth pitch of the limiting comb 10 is longer than the comb tooth pitch of the film wire comb 11. The membrane filaments 9 are integrally combed by the limiting comb 10, the comb tooth pitch of the limiting comb is large, the membrane filaments 9 are processed in a membrane filament 9 bundle mode, the number of the membrane filaments 9 in the membrane filament 9 bundle can be adjusted by changing the comb tooth pitch of the limiting comb 10, and the membrane filament 9 filling rate and the membrane filament 9 pitch of the micro-partition hollow limiting membrane assembly can be adjusted by changing the comb tooth pitch of the membrane filament comb 11.

Further, in order to comb all the membrane wires 9, the length of the limiting comb 10 is greater than or equal to that of the hanging rod 17; the length of the comb teeth of the limiting comb 10 is larger than or equal to the width of the hanging rod 17, and all the membrane filaments 9 along the length direction and the width direction of the hanging rod 17 are combed through the length of the limiting comb 10 and the length of the comb teeth of the limiting comb 10, so that the combing efficiency is greatly improved, and the membrane filaments 9 are guaranteed to be arranged neatly.

Furthermore, the number of the layered plates 13 is multiple, and the intervals between the layered plates 13 are the same, so as to ensure that the membrane filaments 9 are arranged in order along the width direction of the hanger rod 17, the layered plates 13 are located at the bottom of the membrane filaments and are distributed at equal intervals along the width direction of the hanger rod 17, and the gaps between the layered plates 13 are used for arranging the membrane filaments into bundles along the width direction of the hanger rod 17.

Still including gluing casting square pipe 14 in advance, 14 one side of gluing casting square pipe in advance is connected with membrane silk 9, gluing casting square pipe 14 in advance has the die cavity, fill sealed glue in the die cavity for the encapsulation membrane silk 9.

As a further preferable mode of this embodiment, as shown in fig. 3, the pre-poured pre-glued square tube 14 has mounting portions 18 at both ends thereof, and the mounting portions 18 are adapted to detachably connect the pre-glued square tube 14 to the hooks 8.

Further, in order to prevent that the sealant from overflowing, still include the square tube 15 that keeps off class, the square tube 15 that keeps off class is located the casting square tube 14 that glues in advance is for the other side of membrane silk 9, the square tube 15 that keeps off class prevents that the sealant from overflowing and polluting membrane silk 9 to improve the yields of micro-partition cavity limiting membrane subassembly.

The method of use of the micro-segmented hollow fiber membrane module described in this example was as follows: before the membrane wire comb 11 is arranged, the hanging rod 17 is hung on the hanging hook 8, the membrane wire comb 11 and the limiting comb 10 are used for carding the membrane wire 9 in the length direction, a pre-glued cast square tube 14 is installed at the bottom end of the membrane wire 9, and sealant is injected into the pre-glued cast square tube 14; and (3) turning the membrane frame 4, installing a pre-glued cast square tube 14 at the other end of the membrane wire 9, and injecting sealant into the pre-glued cast square tube 14 to complete the preparation of the micro-partition hollow fiber membrane module.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (9)

1. A micro-partition hollow fiber membrane module production apparatus, comprising:

the operating platform comprises a base and a pair of supporting rods arranged on the base;

the turning film frame comprises a pair of vertical rods and a rotating shaft arranged between the vertical rods; the two ends of the rotating shaft are rotatably connected between the pair of supporting rods and are suitable for enabling the vertical rod to rotate relative to the supporting rods; two ends of the vertical rod are connected with rectangular frames;

the lifting hook is detachably arranged on the rectangular frame;

the hanging rod is detachably connected to the bottom of the lifting hook and is suitable for enabling the membrane filaments to be uniformly distributed along the lower surface of the hanging rod;

a limiting comb, a membrane silk comb and a layering plate for membrane silk carding are further arranged below the hanging rod; the limiting comb and the membrane silk comb are used for combing membrane silks along the length direction of the hanging rod, and the layered plate is used for combing membrane silks along the width direction of the hanging rod.

2. The micro-segmented hollow fiber membrane module production apparatus according to claim 1, wherein the hook has a mounting part and a working part integrally connected; the working part of the lifting hook is concave and is suitable for the connection of the lifting rod; the installation part is T-shaped and is suitable for being connected with the rectangular frame.

3. The manufacturing apparatus of micro-segmented hollow fiber membrane module according to claim 2, wherein the length of the limiting comb is longer than the length of the membrane wire comb, and the pitch of teeth of the limiting comb is longer than the pitch of teeth of the limiting comb.

4. The apparatus for producing a micro-segmented hollow fiber membrane module according to claim 3, wherein the length of the limiting comb is equal to or longer than that of the hanging rod; the length of the comb teeth of the limiting comb is larger than or equal to the width of the hanging rod.

5. The apparatus for producing a micro-segmented hollow fiber membrane module according to claim 4, wherein said plurality of said layered plates are provided at the same interval.

6. The manufacturing device of the micro-partition hollow fiber membrane module according to claim 5, further comprising a pre-glued square tube, wherein one side of the pre-glued square tube is connected with the membrane wires, the pre-glued square tube is provided with a molding cavity, and the molding cavity is filled with a sealant and used for packaging the membrane wires.

7. The apparatus for manufacturing a micro-segmented hollow fiber membrane module according to claim 6, wherein the pre-glued square tube has mounting portions at both ends thereof, and the mounting portions are adapted to detachably connect the pre-glued square tube to the hook.

8. The apparatus for preparing a micro-segmented hollow fiber membrane module according to claim 7, further comprising a flow-blocking square tube disposed on the other side of the pre-glued square tube with respect to the membrane wires.

9. The apparatus for producing a micro-segmented hollow fiber membrane module according to claim 8, wherein a foot is provided at the bottom of the operation table.

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