CN116870703A - Hollow ultrafiltration membrane component production and processing device and processing method - Google Patents

Abstract

The invention discloses a production and processing device and a processing method for a hollow ultrafiltration membrane component, which are applied to the technical field of hollow ultrafiltration membrane component production.

Description

Hollow ultrafiltration membrane component production and processing device and processing method

Technical Field

The invention belongs to the technical field of hollow ultrafiltration membrane component production, and particularly relates to a hollow ultrafiltration membrane component production processing device and a processing method.

Background

The hollow ultrafiltration membrane assembly is limited in production process, and can be subjected to various use conditions during processing, but is not limited to one of the following, more specifically, the hollow ultrafiltration membrane assembly is generally composed of a hollow ultrafiltration membrane, a membrane cylinder, a central water collecting pipe and other components, and after being filtered by the hollow ultrafiltration membrane, the hollow ultrafiltration membrane assembly enters the central water collecting pipe through a through hole preset on the surface of the central water collecting pipe and is discharged.

In the conventional perforating means, the perforating tool is used for perforating the central water collecting pipe and applying pressure to metal of the central water collecting pipe, so that the perforating tool can smoothly perform operation, but the inner wall of the central water collecting pipe is not supported during perforating, so that the perforating part is easy to generate a dent phenomenon under the action of the applied pressure, plastic deformation is generated, and the quality of the central water collecting pipe is reduced.

The problem that the prior device on the market is difficult to avoid the problem when the prior device is used can be found by combining the problem entry points, and even if the prior device can be solved, the prior device is required to be connected with an external device, so that the desired effect can not be achieved, and therefore, the device and the method for producing and processing the hollow ultrafiltration membrane component can support the perforated part of the central water collecting pipe when the prior device is used, and avoid plastic deformation affecting the quality of the central water collecting pipe.

Disclosure of Invention

The invention aims at the existing hollow ultrafiltration membrane component production and processing device, and has the advantages that the bearing component is arranged to bear the opening part of the central water collecting pipe, the situation that the pressure is sunken is avoided, the contact piece can be flexibly expanded or contracted to be attached to the inner wall of the central water collecting pipe, so that the effect of bearing the inner wall of the central water collecting pipe is achieved, the central water collecting pipe can be automatically rotated after partial opening is finished through the rotating component, annular opening operation can be carried out on the central water collecting pipe, the porous synchronous operation can be carried out on the central water collecting pipe under the action of the opening component through the arrangement of the opening component, the efficiency of the opening operation of the central water collecting pipe is improved, the hole distance of the central water collecting pipe is consistent due to the porous synchronous operation, and the opening quality of the central water collecting pipe is ensured.

The technical aim of the invention is realized by the following technical scheme: the hollow ultrafiltration membrane component production and processing device comprises a processing support, a stand column, a workbench and a lifting cylinder, wherein the stand column and the lifting cylinder are respectively bolted on the rear side and the front side of the top of the processing support, the workbench is slidably connected on the front side of the stand column, the top of the lifting cylinder is bolted with the inside of the workbench, the front side of the top of the stand column is bolted with an opening component, the top of the workbench is slidably connected with a bearing component, and the bearing component is matched with the opening component for use;

the bearing assembly comprises a sliding part which is connected to the right side of the top of the workbench in a sliding mode, a rotating part is connected to the inside of the sliding part in a rotating mode, the left side of the rotating part extends to the left side of the sliding part, and a contact part is arranged on the surface of the rotating part in an annular mode.

Adopt above-mentioned technical scheme, through setting up bearing subassembly, can play the bearing to center water collecting pipe opening position, avoid pressure to make its sunken condition appear, and through the contact member, the contact member can carry out nimble expansion or shrink, make it can laminate the inner wall at center water collecting pipe, thereby play the effect to center water collecting pipe inner wall bearing, and still have the effect of nimble adjustment, and through the rotating member, can make center water collecting pipe carry out autogiration after the part trompil is accomplished, make it carry out annular trompil operation, and through setting up the trompil subassembly, under the effect of trompil piece, can carry out porous synchronous operation to center water collecting pipe, promote center water collecting pipe trompil operation's efficiency, and because for porous synchronous operation, center water collecting pipe hole is apart from unanimous, center water collecting pipe's trompil quality has been guaranteed.

The invention is further provided with: the sliding part comprises a sliding seat, the sliding seat is connected to the right side of the top of the workbench in a sliding mode, a fixing seat is welded to the top of the sliding seat, a lifting seat is bolted to the top of the fixing seat, electric telescopic rods are bolted to the front side and the rear side of the inside of the fixing seat, and the fixing seat is bolted to the lifting seat through the electric telescopic rods.

By adopting the technical scheme, the sliding part is arranged, the sliding seat slides on the workbench, so that the positions of the rotating part and the contact part are adjusted, the flexible adaptation to the perforating operation of the central water collecting pipe with certain different lengths is achieved, the flexible use effect is achieved, the use height of the lifting seat can be flexibly adjusted through the work of the electric telescopic rod, the function of supporting the perforating operation of the central water collecting pipe with multiple specifications is achieved, and the use limitation is reduced.

The invention is further provided with: the rotating piece comprises a fixed cylinder, the fixed cylinder is rotationally connected to the inside of the lifting seat, the left side of the fixed cylinder extends to the left side of the lifting seat, the top inside the lifting seat is rotationally connected with a rotating shaft, the rotating shaft and the right side of the surface of the fixed cylinder are both sleeved with driving wheels, and a driving belt is wound between the surfaces of the two driving wheels.

By adopting the technical scheme, through setting up the rotating member, through external driving equipment, make its drive pivot and the drive wheel on surface rotatory to under the effect of drive belt, synchronous drive bottom drive wheel and a fixed section of thick bamboo are rotatory, thereby can be after the partial trompil is accomplished, make the center collector pipe carry out autogiration, make it carry out annular trompil operation, reach the effect of using with trompil subassembly cooperation.

The invention is further provided with: the contact comprises a rotating rod, the rotating rod is rotationally connected to the inside of a fixed cylinder, a plurality of first bevel gears are sleeved on the surface of the rotating rod, four second bevel gears are connected to the right side of the first bevel gears in an annular meshing mode, a screw is bolted to the inside of the second bevel gears, one side, far away from the inner wall of the fixed cylinder, of the screw extends to the outer side of the fixed cylinder, an adjusting column is connected with surface threads, and a supporting plate is bolted to one side, far away from the fixed cylinder, of the adjusting column.

Adopt above-mentioned technical scheme, through setting up the contact piece, drive the rotation of a bevel gear through the bull stick, and under the meshing connection of a bevel gear and two bevel gears, make a plurality of two bevel gears can drive the screw rod and carry out synchronous rotation, and under the screw-thread fit of screw rod and adjusting column, make adjusting column drive layer board expansion or shrink, make the inner wall that the layer board can adapt to central water collecting pipe in a flexible way, reach the effect to its bearing, avoid pressure to make its sunken condition appear, thereby guaranteed the quality of use of central water collecting pipe.

The invention is further provided with: the front side and the rear side of sliding seat bottom all weld the sliding block, the inside of sliding block runs through there is the slide bar, the one side that the slide bar is close to the workstation inner wall is bolted with the workstation.

By adopting the technical scheme, the sliding connection of the sliding seat and the workbench can be realized by arranging the sliding block and the sliding rod, so that the position adjustment of the sliding seat is convenient.

The invention is further provided with: the opening assembly comprises a driving piece, the left side of the driving piece is bolted with an opening piece, the rear side of the opening piece is bolted with a stand column, and the driving piece is in transmission connection with the opening piece;

the tapping piece is including installing the casing, install the top of casing bolt at the stand front side, the inside rotation of installing the casing is connected with the connecting axle, the surface of connecting axle has cup jointed a plurality of No. three bevel gears, no. three bevel gears's bottom meshing is connected with No. four bevel gears, no. four bevel gears's inside bolt has the fixer, and the bottom of fixer extends to the bottom of installing the casing, the inside bottom joint of fixer has the drill bit.

By adopting the technical scheme, through setting up the trompil piece, under the transmission connection through driving piece and it, make the connecting axle drive a plurality of No. three bevel gears rotatory to under its meshing connection with No. four bevel gears, can drive a plurality of holders and drill bit work in step, thereby reach and carry out porous synchronous operation to the center water collecting pipe, promote the efficiency of center water collecting pipe trompil operation, and because for porous synchronous operation, make center water collecting pipe pitch of holes unanimous, guaranteed the trompil quality of center water collecting pipe.

The invention is further provided with: the driving piece comprises a driving box, the driving box is bolted on the right side of the installation shell, a rotating rod is rotatably connected to the front side and the rear side of the inside of the driving box, a driving gear and a driven gear are respectively sleeved on the surface of the rotating rod, the driving gear is meshed with the driven gear, and the front rotating rod is connected with a connecting shaft through a coupling.

By adopting the technical scheme, the driving piece is arranged, and the driving piece is connected with the external driving equipment to drive the rear rotary rod to rotate, so that the driving gear is driven to rotate, the driven gear and the front rotary rod are driven to rotate, and the effect of driving the hole opening piece to work can be achieved.

The invention is further provided with: the surface rotation of fixer is connected with the support frame, the bottom of support frame is bolted with the inner wall of installation casing, the support frame is the setting of falling U-shaped.

By adopting the technical scheme, the effect of limiting the use position of the fixer can be achieved by arranging the supporting frame, so that the fixer can stably run.

The invention is further provided with: the inside of layer board has offered a plurality of through-holes that use with the drill bit cooperation, and through-hole and drill bit one-to-one.

By adopting the technical scheme, through the arrangement of the through holes, the supporting plate and the perforating piece can be conveniently matched for use, so that the drill bit can carry out perforating operation.

A processing method of a hollow ultrafiltration membrane component production and processing device comprises the following steps:

s1, placing a central water collecting pipe in a hollow ultrafiltration membrane component on a workbench, and adjusting the height of a bearing component according to the specification of the central water collecting pipe so that the bearing component can enter the interior of the central water collecting pipe;

s2, after the bearing assembly enters the central water collecting pipe, the bearing assembly can be expanded or contracted through the contact piece, so that the bearing assembly can be flexibly adjusted according to the diameter of the central water collecting pipe, and the inner wall of the central water collecting pipe is supported;

s3, lifting the workbench to the opening assembly through the operation of the lifting cylinder, so that the opening piece performs opening operation on the central water collecting pipe, and rotating the central water collecting pipe through the rotating piece to perform annular opening treatment.

In summary, the invention has the following beneficial effects:

1. the bearing assembly is arranged, so that the opening part of the central water collecting pipe can be supported, the situation that the pressure is used for sinking is avoided, the contact piece can be flexibly expanded or contracted to be attached to the inner wall of the central water collecting pipe, the effect of supporting the inner wall of the central water collecting pipe is achieved, the effect of flexible adjustment is achieved, and the central water collecting pipe can be automatically rotated after partial opening is completed through the rotating piece, so that annular opening operation can be carried out;

2. through setting up the trompil subassembly, under the effect of trompil spare, can carry out porous synchronous operation to the center water collecting pipe, promote the efficiency of center water collecting pipe trompil operation to because for porous synchronous operation, make the center water collecting pipe pitch of holes unanimous, guaranteed the trompil quality of center water collecting pipe.

Drawings

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

figure 2 is a schematic view of the construction of the support assembly of the present invention;

FIG. 3 is a schematic view of a slider structure of the present invention;

FIG. 4 is a schematic illustration of the connection of a rotor and a slider of the present invention;

FIG. 5 is a schematic view of the contact and swivel connection of the present invention;

FIG. 6 is a schematic cross-sectional view of an apertured member of the present invention;

FIG. 7 is a schematic top view of the drive of the present invention;

FIG. 8 is a schematic flow chart of a processing method of the hollow ultrafiltration membrane assembly production processing device of the invention.

Reference numerals: 1. machining a support; 2. a column; 3. a work table; 4. a lifting cylinder; 5. an aperture assembly; 501. a driving member; 5011. a drive box; 5012. a rotating rod; 5013. a drive gear; 5014. a driven gear; 502. a perforated member; 5021. a mounting shell; 5022. a connecting shaft; 5023. a third bevel gear; 5024. a fourth bevel gear; 5025. a holder; 5026. a drill bit; 6. a support assembly; 601. a slider; 6011. a sliding seat; 6012. a fixing seat; 6013. a lifting seat; 6014. an electric telescopic rod; 602. a rotating member; 6021. a fixed cylinder; 6022. a rotating shaft; 6023. a driving wheel; 6024. a transmission belt; 603. a contact; 6031. a rotating rod; 6032. a two-size bevel gear; 6033. a screw; 6034. an adjusting column; 6035. a supporting plate; 6036. a first bevel gear; 7. a sliding block; 8. a slide bar; 9. a support frame; 10. and a through hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example 1:

referring to fig. 1-5, a hollow ultrafiltration membrane component production and processing device comprises a processing support 1, a stand column 2, a workbench 3 and a lifting cylinder 4, wherein the stand column 2 and the lifting cylinder 4 are respectively bolted on the rear side and the front side of the top of the processing support 1, the workbench 3 is slidably connected on the front side of the stand column 2, the top of the lifting cylinder 4 is bolted with the inside of the workbench 3, an opening component 5 is bolted on the front side of the top of the stand column 2, a bearing component 6 is slidably connected on the top of the workbench 3, and the bearing component 6 is matched with the opening component 5 for use;

the bearing assembly 6 comprises a sliding part 601, the sliding part 601 is slidingly connected to the right side of the top of the workbench 3, a rotating part 602 is rotationally connected to the inside of the sliding part 601, the left side of the rotating part 602 extends to the left side of the sliding part 601, a contact part 603 is annularly arranged on the surface of the rotating part 602, the bearing assembly 6 is arranged to support the opening part of the central water collecting pipe, the situation that the pressure is depressed is avoided, the contact part 603 can flexibly expand or contract, the contact part 603 can be attached to the inner wall of the central water collecting pipe, the effect of supporting the inner wall of the central water collecting pipe is achieved, the flexible adjustment function is achieved, and the central water collecting pipe can automatically rotate after partial opening is completed through the rotating part 602, so that annular opening operation can be carried out.

As shown in fig. 3, the sliding member 601 includes a sliding seat 6011, the sliding seat 6011 is slidably connected to the right side of the top of the workbench 3, a fixing seat 6012 is welded to the top of the sliding seat 6011, an elevating seat 6013 is bolted to the top of the fixing seat 6012, electric telescopic rods 6014 are respectively bolted to the front side and the rear side of the inside of the fixing seat 6012, the fixing seat 6012 is bolted to the elevating seat 6013 through the electric telescopic rods 6014, and by arranging the sliding member 601, the sliding member 6011 slides on the workbench 3, the positions of the rotating member 602 and the contact member 603 can be adjusted, so that the flexible adaptation to the drilling operation of central water collecting pipes with different lengths is achieved, the flexible use effect is achieved, and the use height of the elevating seat 6013 can be flexibly adjusted through the operation of the electric telescopic rods 6014, so that the multi-specification central water collecting pipe bearing function is achieved, and the use limitation is reduced.

As shown in fig. 4, the rotating member 602 includes a fixed cylinder 6021, the fixed cylinder 6021 is rotatably connected in the lifting seat 6013, the left side of the fixed cylinder 6021 extends to the left side of the lifting seat 6013, the top in the lifting seat 6013 is rotatably connected with a rotating shaft 6022, the right sides of the surfaces of the rotating shaft 6022 and the fixed cylinder 6021 are both sleeved with a driving wheel 6023, a driving belt 6024 is wound between the surfaces of the two driving wheels 6023, the rotating member 602 is arranged to drive the rotating shaft 6022 and the driving wheel 6023 on the surface thereof to rotate through an external driving device, and under the action of the driving belt 6024, the bottom driving wheel 6023 and the fixed cylinder 6021 are synchronously driven to rotate, so that after part of the hole is formed, the central water collecting pipe can automatically rotate, and the central water collecting pipe can perform annular hole forming operation, thereby achieving the effect of being matched with the hole forming assembly 5.

As shown in fig. 5, the contact 603 includes a rotating rod 6031, the rotating rod 6031 is rotationally connected in the fixed cylinder 6021, a plurality of first bevel gears 6036 are sleeved on the surface of the rotating rod 6031, four second bevel gears 6032 are connected to the right side of the first bevel gears 6036 in an annular meshing manner, screws 6033 are bolted in the inner sides of the second bevel gears 6032, one side of the screws 6033 far away from the inner wall of the fixed cylinder 6021 extends to the outer side of the fixed cylinder 6021, an adjusting column 6034 is connected to the surface in a threaded manner, a supporting plate 6035 is bolted on one side of the adjusting column 6034 far away from the fixed cylinder 6021, the contact 603 is arranged, the rotating rod 6031 drives the first bevel gears 6036 to rotate through the rotating rod 6031, the plurality of second bevel gears 6032 can drive the screws 6033 to synchronously rotate, and the adjusting column 6034 drives the supporting plate 6035 to expand or contract through the threaded cooperation of the screws 6033 and the adjusting column 6034, so that the supporting plate 6035 can flexibly adapt to the inner wall of a central water collecting pipe, the pressure of the central water collecting pipe is prevented from being depressed, and the central water collecting pipe is prevented from being depressed.

As shown in fig. 3, the front side and the rear side of the bottom of the sliding seat 6011 are both welded with a sliding block 7, a sliding rod 8 penetrates through the sliding block 7, one side of the sliding rod 8, which is close to the inner wall of the workbench 3, is bolted to the workbench 3, and by setting the sliding block 7 and the sliding rod 8, the sliding connection between the sliding seat 6011 and the workbench 3 can be realized, so that the position adjustment of the sliding seat 6011 is facilitated.

As shown in fig. 2, a plurality of through holes 10 matched with the drill 5026 are formed in the support plate 6035, the through holes 10 are in one-to-one correspondence with the drill 5026, and the support plate 6035 and the hole opening member 502 can be matched for use by arranging the through holes 10, so that the drill 5026 can perform hole opening operation.

The use process is briefly described: the central water collecting pipe in the hollow ultrafiltration membrane component is placed on a workbench 3, the height of a bearing component 6 is adjusted according to the specification of the central water collecting pipe, an electric telescopic rod 6014 integrally drives a lifting seat 6013, a rotating piece 602 and a contact piece 603 to adjust the height, then a rotary rod 6031 drives a first bevel gear 6036 to rotate, under the meshing connection of the first bevel gear 6036 and a second bevel gear 6032, a plurality of second bevel gears 6032 can drive a screw 6033 to synchronously rotate, under the threaded fit of the screw 6033 and an adjusting column 6034, the adjusting column 6034 can drive a supporting plate 6035 to expand or contract, the supporting plate 6035 can flexibly adapt to the inner wall of the central water collecting pipe, the central water collecting pipe is supported, then the central water collecting pipe is perforated through a perforating component 5, after a group of holes are completely perforated, a rotary shaft 6022 and a surface 6023 of the rotary shaft are driven by an external driving device, under the action of a driving belt 6024, the bottom driving wheel 6021 and a fixed cylinder 6021 are synchronously driven to rotate, and under the action of the driving belt 6035, the central driving wheel is tightly contacted with the central driving wheel to rotate, and the supporting plate is tightly contacted with the central driving wheel.

Example 2:

referring to fig. 6 to 7, including processing support 1, stand 2, workstation 3 and lift cylinder 4, stand 2 and lift cylinder 4 bolt respectively in the rear side and the front side at processing support 1 top, workstation 3 sliding connection is in the front side of stand 2, the inside bolt of top and workstation 3 of lift cylinder 4, the front side bolt at stand 2 top has trompil subassembly 5, through setting up trompil subassembly 5, under the effect of trompil piece 502, can carry out the synchronous operation of porous to the center water collecting pipe, promote the efficiency of center water collecting pipe trompil operation, and because for the synchronous operation of porous, center water collecting pipe pitch is unanimous, the trompil quality of center water collecting pipe has been guaranteed.

As shown in fig. 6, the tapping assembly 5 comprises a driving member 501, a tapping member 502 is bolted to the left side of the driving member 501, the rear side of the tapping member 502 is bolted to the upright post 2, and the driving member 501 is in transmission connection with the tapping member 502;

the trompil piece 502 includes installation casing 5021, installation casing 5021 bolt is at the top of stand 2 front side, the inside rotation of installation casing 5021 is connected with connecting axle 5022, a plurality of No. three bevel gears 5023 have been cup jointed on the surface of connecting axle 5022, no. three bevel gears 5023's bottom meshing is connected with No. four bevel gears 5024, no. four bevel gears 5024's inside bolt has fixer 5025, and the bottom of fixer 5025 extends to installation casing 5021's bottom, the inside bottom joint of fixer 5025 has drill bit 5026, through setting up trompil piece 502, under being connected with its transmission through driving piece 501, make connecting axle 5022 drive a plurality of No. three bevel gears 5023 rotatory, and under its meshing with No. four bevel gears 5024's meshing is connected, can drive a plurality of fixer 5025 and drill bit 5026 work in step, thereby reach the synchronous operation of porous to the center water collecting pipe, promote the efficiency of center water collecting pipe trompil operation, and because for the synchronous operation of porous, the center water collecting pipe hole is apart from unanimous, center water collecting pipe's trompil quality has been guaranteed.

As shown in fig. 7, the driving member 501 includes a driving case 5011, the driving case 5011 is bolted on the right side of the installation housing 5021, the front side and the rear side inside the driving case 5011 are both rotationally connected with a rotating rod 5012, the surface of the rotating rod 5012 is respectively sleeved with a driving gear 5013 and a driven gear 5014, the driving gear 5013 is meshed with the driven gear 5014, the front rotating rod 5012 is connected with a connecting shaft 5022 through a coupling, and by setting the driving member 501, the driving member is connected with external driving equipment, so that the driving member is driven to rotate by the rear rotating rod 5012, and the driving gear 5013 is driven to rotate by the driving driven gear 5014 and the front rotating rod 5012, thereby achieving the effect of driving the hole forming member 502.

As shown in fig. 6, the surface rotation of fixer 5025 is connected with support frame 9, and the bottom of support frame 9 is bolted with the inner wall of installation casing 5021, and support frame 9 is the setting of falling the U-shaped, through setting up support frame 9, can reach the effect of restriction fixer 5025 use position, makes its operation that can be stable.

The use process is briefly described: through external drive equipment drive rear side dwang 5012 rotation, make it drive driving gear 5013 rotation, thereby drive driven gear 5014 and front side dwang 5012 rotation, make front side dwang 5012 drive connecting axle 5022 and rotate, make connecting axle 5022 drive a plurality of No. three bevel gears 5023 rotatory, and under its meshing connection with No. four bevel gears 5024, can drive a plurality of fixer 5025 and drill bit 5026 work in step, thereby reach the synchronous operation of porous to the center water collecting pipe, promote the efficiency of center water collecting pipe trompil operation, and because for the synchronous operation of porous, make center water collecting pipe pitch of holes unanimous, guaranteed the trompil quality of center water collecting pipe.

As shown in fig. 8, a processing method of a hollow ultrafiltration membrane component production processing device comprises the following steps:

s1, placing a central water collecting pipe in a hollow ultrafiltration membrane component on a workbench 3, and adjusting the height of a bearing component 6 according to the specification of the central water collecting pipe so that the bearing component can enter the interior of the central water collecting pipe;

s2, after the bearing component 6 enters the central water collecting pipe, the bearing component can be expanded or contracted through the contact piece 603, so that the bearing component can be flexibly adjusted according to the diameter of the central water collecting pipe, and the inner wall of the central water collecting pipe is supported;

s3, lifting the workbench 3 to the position of the hole opening assembly 5 through the operation of the lifting cylinder 4, enabling the hole opening piece 502 to perform hole opening operation on the central water collecting pipe, and enabling the central water collecting pipe to be subjected to annular hole opening treatment through the rotation piece 602.

The present embodiment is only for explanation of the present invention and is not to be construed as limiting the present invention, and modifications to the present embodiment, which may not creatively contribute to the present invention as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present invention.

Claims (10)

1. The utility model provides a cavity milipore filter subassembly production processingequipment, includes processing support (1), stand (2), workstation (3) and lift cylinder (4), its characterized in that: the vertical column (2) and the lifting cylinder (4) are respectively bolted on the rear side and the front side of the top of the processing support (1), the workbench (3) is slidably connected on the front side of the vertical column (2), the top of the lifting cylinder (4) is bolted with the inside of the workbench (3), the front side of the top of the vertical column (2) is bolted with the perforating component (5), the top of the workbench (3) is slidably connected with the bearing component (6), and the bearing component (6) is matched with the perforating component (5);

the bearing assembly (6) comprises a sliding part (601), the sliding part (601) is connected to the right side of the top of the workbench (3) in a sliding mode, a rotating part (602) is connected to the inside of the sliding part (601) in a rotating mode, the left side of the rotating part (602) extends to the left side of the sliding part (601), and a contact part (603) is arranged on the surface of the rotating part (602) in a ring mode.

2. The hollow ultrafiltration membrane assembly production and processing device according to claim 1, wherein: the sliding part (601) comprises a sliding seat (6011), the sliding seat (6011) is connected to the right side of the top of the workbench (3) in a sliding mode, a fixing seat (6012) is welded to the top of the sliding seat (6011), a lifting seat (6013) is bolted to the top of the fixing seat (6012), electric telescopic rods (6014) are respectively bolted to the front side and the rear side of the inside of the fixing seat (6012), and the fixing seat (6012) is bolted to the lifting seat (6013) through the electric telescopic rods (6014).

3. A hollow ultrafiltration membrane assembly production and processing apparatus as in claim 2 wherein: the rotating piece (602) comprises a fixed cylinder (6021), the fixed cylinder (6021) is rotationally connected to the inside of the lifting seat (6013), the left side of the fixed cylinder (6021) extends to the left side of the lifting seat (6013), a rotating shaft (6022) is rotationally connected to the top of the inside of the lifting seat (6013), driving wheels (6023) are sleeved on the right sides of the surfaces of the rotating shaft (6022) and the fixed cylinder (6021), and a driving belt (6024) is wound between the surfaces of the two driving wheels (6023).

4. A hollow ultrafiltration membrane module production and processing apparatus as claimed in claim 3, wherein: contact (603) include bull stick (6031), bull stick (6031) rotate the inside of being connected at fixed section of thick bamboo (6021), a plurality of bevel gear (6036) have been cup jointed on the surface of bull stick (6031), the right side of bevel gear (6036) is annular meshing and is connected with four secondary bevel gears (6032), the inside bolt of secondary bevel gears (6032) has screw rod (6033), one side that fixed section of thick bamboo (6021) inner wall was kept away from to screw rod (6033) extends to the outside of fixed section of thick bamboo (6021), and surface threaded connection has adjusting column (6034), one side bolt that fixed section of thick bamboo (6021) was kept away from to adjusting column (6034) has layer board (6035).

5. A hollow ultrafiltration membrane assembly production and processing apparatus as in claim 2 wherein: the front side and the rear side of sliding seat (6011) bottom all weld slider (7), the inside of slider (7) is run through and is had slide bar (8), one side that slide bar (8) are close to workstation (3) inner wall and workstation (3) bolt.

6. The hollow ultrafiltration membrane assembly production and processing device according to claim 4, wherein: the opening assembly (5) comprises a driving piece (501), an opening piece (502) is bolted to the left side of the driving piece (501), the rear side of the opening piece (502) is bolted to the upright post (2), and the driving piece (501) is in transmission connection with the opening piece (502);

the tapping piece (502) is including installing casing (5021), the top of installing casing (5021) bolt in stand (2) front side, the inside rotation of installing casing (5021) is connected with connecting axle (5022), the surface of connecting axle (5022) has cup jointed a plurality of No. three bevel gears (5023), the bottom meshing of No. three bevel gears (5023) is connected with No. four bevel gears (5024), the inside bolt of No. four bevel gears (5024) has fixer (5025), and the bottom of fixer (5025) extends to the bottom of installing casing (5021), the inside bottom joint of fixer (5025) has drill bit (5026).

7. The hollow ultrafiltration membrane assembly production and processing device according to claim 6, wherein: the driving piece (501) comprises a driving box (5011), the driving box (5011) is bolted on the right side of an installation shell (5021), a rotating rod (5012) is connected to the front side and the rear side of the driving box (5011) in a rotating mode, a driving gear (5013) and a driven gear (5014) are respectively sleeved on the surface of the rotating rod (5012), the driving gear (5013) is meshed with the driven gear (5014), and the front rotating rod (5012) is connected with a connecting shaft (5022) through a coupler.

8. The hollow ultrafiltration membrane assembly production and processing device according to claim 6, wherein: the surface rotation of fixer (5025) is connected with support frame (9), the bottom of support frame (9) is bolted with the inner wall of installation casing (5021), support frame (9) are the setting of falling U-shaped.

9. The hollow ultrafiltration membrane assembly production and processing device according to claim 6, wherein: the inside of layer board (6035) has seted up a plurality of through-hole (10) that use with drill bit (5026) cooperation, and through-hole (10) and drill bit (5026) one-to-one.

10. A processing method of a hollow ultrafiltration membrane component production and processing device is characterized in that: the method comprises the following steps:

s1, placing a central water collecting pipe in a hollow ultrafiltration membrane component on a workbench (3), and adjusting the height of a bearing component (6) according to the specification of the central water collecting pipe so that the bearing component can enter the interior of the central water collecting pipe;

s2, after the bearing component (6) enters the central water collecting pipe, the bearing component can be expanded or contracted through the contact piece (603) so that the bearing component can be flexibly adjusted according to the diameter of the central water collecting pipe, and the inner wall of the central water collecting pipe is supported;

s3, lifting the workbench (3) to the position of the hole opening assembly (5) through the operation of the lifting air cylinder (4), enabling the hole opening piece (502) to carry out hole opening operation on the central water collecting pipe, and enabling the central water collecting pipe to carry out annular hole opening treatment through the rotation of the rotation piece (602).