A filter cloth winding device and a filter cloth processing system

By using a combination of sleeve and lifting device in the filter cloth winding device, efficient winding and transfer of filter cloth is achieved, solving the problems of long downtime and high labor costs in the existing technology and improving processing efficiency.

CN224429857UActive Publication Date: 2026-06-30GUANGDONG CLEANSKY ENVIRONMENTAL SCI & TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGDONG CLEANSKY ENVIRONMENTAL SCI & TECH CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing filter cloth winding devices require long downtime and increase labor costs during unloading and transfer after winding.

Method used

A sleeve is fitted onto the winding shaft, and the filter cloth is clamped through the shaft groove. The sleeve rotates with the winding shaft to wind up the filter cloth. A lifting device is used to transfer the sleeve to the placement area, thus realizing the winding and transfer of the filter cloth.

Benefits of technology

This invention solves the problems of long downtime and high labor costs in existing filter cloth winding devices after winding and unloading, thus improving processing efficiency and reducing labor costs.

✦ Generated by Eureka AI based on patent content.

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Abstract

A filter cloth winding device and a filter cloth processing system are disclosed. The filter cloth winding device includes: a base, a winding shaft, a clamping mechanism, a sleeve, a rotary driver, and a lifting device. One end of the winding shaft is rotatably mounted on the base. A shaft groove extending through the end is provided on the side of the winding shaft. The clamping mechanism is mounted in the shaft groove and has a clamping jaw with clamping function. The sleeve is detachably sleeved on the winding shaft from the other end, and the sleeve is synchronously rotatably connected to the winding shaft. The sleeve has a sleeve opening that exposes the clamping jaw of the shaft groove. The output end of the rotary driver is connected to the winding shaft to drive the winding shaft to rotate, thereby driving the sleeve to rotate. The lifting device is movable above the winding shaft and has a lifting rope with adjustable lifting capacity, which is used to connect the sleeve. This solution solves the problems of long downtime and high labor costs required for unloading and transferring filter cloth after winding in existing filter cloth winding devices.
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Description

Technical Field

[0001] This utility model relates to the field of filter cloth winding devices, and in particular to a filter cloth winding device and a filter cloth processing system. Background Technology

[0002] Filter cloth is a filter medium woven from natural or synthetic fibers, mainly used for air filtration and dust removal, collecting dust particles to purify the air and protect the environment. It is used in industries such as smelting, chemical plants, sugar refining, dyeing, pharmaceuticals, and food processing. Currently, after processing, filter cloth is wound onto a cylinder via a rotating shaft. The cylinder is then removed from the shaft and transferred to a designated location in the factory. However, existing rotating shafts typically have rotating seats at both ends. To remove the cylinder, one rotating seat must be removed, and the cylinder manually removed, placed on a moving trolley, and then transferred along with the filter cloth. This process of cylinder disassembly and reloading requires a considerable amount of waiting time, often necessitating machine downtime, impacting processing efficiency and increasing labor costs. Utility Model Content

[0003] The purpose of this utility model is to provide a filter cloth winding device, which uses a sleeve to fit onto a winding shaft and clamps the filter cloth through the shaft groove. The sleeve rotates with the winding shaft to wind the filter cloth into the sleeve. Finally, the sleeve is transferred to the placement area by a lifting device, thus realizing the winding and transfer of the filter cloth.

[0004] This utility model also proposes a filter cloth processing system, which is equipped with the above-mentioned filter cloth winding device.

[0005] To achieve this objective, the present invention adopts the following technical solution:

[0006] A filter cloth winding device includes: a base, a winding shaft, a clamping mechanism, a sleeve, a rotary drive, and a lifting device;

[0007] One end of the take-up shaft is rotatably mounted to the base; the side of the take-up shaft is provided with a shaft groove extending through the end; the clamping mechanism is mounted on the shaft groove, and the clamping mechanism is provided with a clamping jaw; the sleeve is detachably sleeved on the take-up shaft from the other end of the take-up shaft, and the sleeve is rotatably connected to the take-up shaft; the sleeve is provided with a sleeve opening, and the sleeve opening exposes the clamping jaw of the shaft groove;

[0008] The output end of the rotary driver is connected to the take-up shaft, which drives the take-up shaft to rotate, thereby causing the sleeve to rotate.

[0009] The lifting device is movably positioned above the winding shaft, and the lifting device is equipped with a lifting rope that is adjustable in height and is used to connect to the sleeve.

[0010] Optimally, it may also include: a turntable;

[0011] The turntable is rotatably mounted on the base, and one end of the take-up shaft is fixed to the turntable; the turntable is provided with a plurality of positioning posts; the sleeve is provided with a positioning block, and the positioning block is provided with a positioning through groove; the positioning posts extend horizontally into the positioning through groove, so that the sleeve and the take-up shaft are connected to rotate synchronously.

[0012] Optimally, it may also include: a locking limit element;

[0013] The positioning post has a post opening at one end extending out of the positioning through groove; the locking limiter is detachably installed at the post opening to prevent the positioning post from disengaging from the positioning through groove.

[0014] Alternatively, the sleeve may be provided with positioning blocks at both ends, and lifting lugs may be provided on the outer side of the positioning blocks, with the lifting rope detachably connected to the lifting lugs.

[0015] Optimally, the clamping mechanism includes: a fixed clamping plate, a movable clamping plate, a locking screw, and a locking nut;

[0016] The fixed clamp is fixed to the bottom wall below the shaft groove; the movable clamp is movably limited to the top wall above the shaft groove, and the clamping opening is formed between the movable clamp and the fixed clamp. The movable clamp moves closer to or further away from the fixed clamp to adjust the size of the clamping opening; both the fixed clamp and the movable clamp are provided with end plates at the ends of the winding shaft, and the end plates are provided with plate openings; the locking screw passes through the plate openings of both the fixed clamp and the movable clamp and is threadedly engaged with the locking nut.

[0017] Alternatively, the fixed clamp and the movable clamp can be in contact via clamping surfaces that extend obliquely from the opening of the shaft groove toward the bottom wall.

[0018] Optimally, the outer side of the sleeve is provided with end platforms protruding from the outer surface, and the end platforms are disposed at both ends of the sleeve; a winding recess for accommodating the filter cloth is formed between the two end platforms; and the positioning block is disposed on the end platforms.

[0019] Optimally, it may also include: an X-axis moving mechanism and a Y-axis moving mechanism;

[0020] The output end of the X-axis moving mechanism is connected to the base and is used to drive the base to move in the X-axis direction, which is the length direction of the take-up shaft.

[0021] The output end of the Y-axis moving mechanism is connected to the lifting device and is used to drive the lifting device to move along the Y-axis direction;

[0022] When the hoisting rope is connected to the sleeve, the X-axis moving mechanism drives the winding shaft to move, causing the winding shaft to gradually detach from the sleeve. The Y-axis moving mechanism drives the lifting device to move, causing the sleeve to move away from the base.

[0023] A filter cloth processing system is provided with the above-mentioned filter cloth winding device.

[0024] Compared with the prior art, one of the above technical solutions has the following beneficial effects:

[0025] This solution provides a filter cloth winding device, which uses a sleeve fitted onto a winding shaft and clamps the filter cloth through the shaft groove. The sleeve rotates with the winding shaft to wind the filter cloth into the sleeve. Finally, a lifting device transfers the sleeve to the placement area, realizing the winding and transfer of the filter cloth. This solves the problems of long downtime and high labor costs required for unloading and transferring the filter cloth after winding in existing filter cloth winding devices. Attached Figure Description

[0026] Figure 1 This is a schematic diagram of one embodiment of the filter cloth winding device;

[0027] Figure 2 yes Figure 1 Enlarged view of section A in the middle;

[0028] Figure 3 This is a side view of one embodiment of the filter cloth winding device;

[0029] Figure 4 yes Figure 3 Enlarged view of section B in the middle.

[0030] in:

[0031] 1. Base; 2. Winding shaft; 3. Clamping mechanism; 4. Sleeve; 5. Rotary driver; 6. Lifting device; 7. Turntable; 8. Locking limiter; 10. Filter cloth;

[0032] Shaft groove 21; clamping mouth 30; fixed clamping plate 31; movable clamping plate 32; locking screw 33; locking nut 34; end plate 35; plate opening 36; clamping surface 37;

[0033] 41. Cylinder opening; 42. Positioning block; 43. Positioning slot; 44. Lifting lug; 45. End platform; 46. Winding recess; 61. Lifting rope; 71. Positioning column; 72. Column opening; 91. X-axis moving mechanism; 92. Y-axis moving mechanism. Detailed Implementation

[0034] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain this utility model, and should not be construed as limiting this utility model.

[0035] In the description of this utility model, it should be understood that the terms "center," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "left," "right," "front," "rear," "vertical," "horizontal," "top," "bottom," "inner," "outer," "inner side," "outer side," "inner end," "outer end," "axial," "radial," and "circumferential," etc., indicating the orientation or positional relationship shown in the accompanying drawings, are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Furthermore, features defined with "first" and "second" may explicitly or implicitly include one or more of these features, used to distinguish descriptive features, without any order or emphasis. In the description of this utility model, unless otherwise stated, "multiple" means two or more.

[0036] like Figure 1-4 A filter cloth winding device includes: a base 1, a winding shaft 2, a clamping mechanism 3, a sleeve 4, a rotary driver 5, and a lifting device 6;

[0037] One end of the take-up shaft 2 is rotatably mounted on the base 1; the side of the take-up shaft 2 is provided with a shaft groove 21 extending through the end; the clamping mechanism 3 is mounted on the shaft groove 21, and the clamping mechanism 3 is provided with a clamping jaw 30; the sleeve 4 is detachably sleeved on the take-up shaft 2 from the other end of the take-up shaft 2, and the sleeve 4 is synchronously rotatably connected to the take-up shaft 2; the sleeve 4 is provided with a sleeve opening 41, and the sleeve opening 41 exposes the clamping jaw 30 of the shaft groove 21;

[0038] The output end of the rotary driver 5 is connected to the take-up shaft 2 and is used to drive the take-up shaft 2 to rotate, thereby driving the sleeve 4 to rotate.

[0039] The lifting device 6 is movably positioned above the winding shaft 2. The lifting device 6 is equipped with a lifting rope 61 for adjusting its height. The lifting rope 61 is used to connect the sleeve 4.

[0040] This solution provides a filter cloth winding device, which uses a sleeve 4 fitted onto a winding shaft 2 and clamps the filter cloth 10 through the clamp 30 of the shaft groove 21. The sleeve 4 rotates with the winding shaft 2 to wind the filter cloth 10 into the sleeve 4. Finally, the sleeve 4 is transferred to the placement area by a lifting device 6, thus realizing the winding and transfer of the filter cloth 10. This solves the problem that existing filter cloth winding devices require long downtime and high labor costs for unloading and transferring after winding.

[0041] Specifically, the winding shaft 2 is rotatably mounted on the base 1; after a series of processing steps, the filter cloth 10 is wound up by the filter cloth winding device of this application and placed in a designated position in the workshop after winding; the winding shaft 2 has a shaft groove 21 on its side, and the clamping mechanism 3 is installed in the shaft groove 21; the clamping mechanism 3 is replaced by a known clamp with clamping function, which can clamp the filter cloth 10 through the clamping jaw 30; since one end of the winding shaft 2 is mounted on the base 1, the sleeve 4 is inserted into the winding shaft 2 from the other end of the winding shaft 2; when the sleeve 4 is sleeved on the winding shaft 2, the sleeve opening 41 of the sleeve 4 exposes the opening of the shaft groove 21; the filter cloth 10 conveyed at the rear end can pass through the sleeve opening 41 and extend into the shaft groove 21, and be clamped by the clamping jaw 30. Before the sleeve 4 begins winding, the rotary driver 5 can be activated. The rotary driver 5 drives the winding shaft 2 to rotate, which in turn drives the sleeve 4 of the winding shaft 2 to rotate, thereby winding the filter cloth 10 into the sleeve 4. After the sleeve 4 has finished winding the filter cloth 10, the sleeve 4 can be synchronously connected to the winding shaft 2. The clamp 30 can be released, and the sleeve 4 can be detached from the winding shaft 2 by manual operation or by the lifting rope 61 of the lifting device 6. Then, the lifting rope 61 is connected to the sleeve 4, and the lifting rope 61 rises to drive the sleeve 4 to rise. The lifting device 6 moves above the winding shaft 2, thereby transferring the sleeve 4 with the wound filter cloth 10 from near the base 1 to a designated location in the factory. In this way, this application realizes the winding and transfer of the filter cloth 10, solving the problem that existing filter cloth winding devices require long downtime and have high labor costs for unloading and transferring after winding.

[0042] The lifting device 6 is replaced by a known lifting mechanism, such as an electric hoist or a crane; the movement of the lifting device 6 above the winding shaft 2 can be achieved by a known mechanism with a driving movement function, such as a mobile gantry.

[0043] Optimally, it also includes: turntable 7;

[0044] The turntable 7 is rotatably mounted on the base 1, and one end of the take-up shaft 2 is fixed to the turntable 7; the turntable 7 is provided with a plurality of positioning posts 71; the sleeve 4 is provided with a positioning block 42, and the positioning block 42 is provided with a positioning through groove 43; the positioning posts 71 extend horizontally into the positioning through groove 43, so that the sleeve 4 and the take-up shaft 2 are connected to rotate synchronously.

[0045] When it is necessary to install the sleeve 4 onto the take-up shaft 2, the sleeve 4 can be inserted from the end of the take-up shaft 2 away from the turntable 7. The sleeve 4 gradually approaches the turntable 7 along the length of the take-up shaft 2. The sleeve 4 is aligned with the positioning post 71 of the turntable 7 through the positioning slot 43 of the positioning block 42. The positioning post 71 extends into the positioning slot 43, thereby connecting the turntable 7, the take-up shaft 2, and the sleeve 4 into one unit. When the take-up shaft 2 rotates, it drives the sleeve 4 of the turntable 7 to rotate, realizing the synchronous rotation connection of the three. In this way, the sleeve 4 only needs to be moved linearly along the take-up shaft 2 and adjusted at a certain angle to be installed on the take-up shaft 2, reducing the difficulty of installing the take-up shaft 2 and the sleeve 4.

[0046] Optimally, it also includes: a locking limit element 8;

[0047] The positioning post 71 has a post opening 72 at one end extending out of the positioning through groove 43; the locking limiting member 8 is detachably installed at the post opening 72 to restrict the positioning post 71 from disengaging from the positioning through groove 43.

[0048] This solution can further use a locking limiter 8 to lock the installation position of the sleeve 4, preventing the sleeve 4 from disengaging from the positioning post 71. One end of the positioning post 71 has a post opening 72, and one end of the positioning post 71 passes through the positioning through groove 43 of the positioning block 42. The locking limiter 8 is detachably installed on the post opening 72. When the locking limiter 8 is limited to the post opening 72, the locking limiter 8 restricts the positioning post 71 from disengaging from the positioning through groove 43. Only after the locking limiter 8 is removed can the positioning post 71 normally disengage from the positioning through groove 43, thereby ensuring the connection stability between the winding shaft 2 and the sleeve 4. The locking limiter 8 can be any known structure that is limited to the post opening 72, such as a lock body, a pin, a combination of screws and nuts, a closed ring, etc., as long as it is installed on the post opening 72 to restrict the disengagement of the positioning post 71.

[0049] Alternatively, the sleeve 4 may be provided with positioning blocks 42 at both ends, and lifting lugs 44 may be provided on the outer side of the positioning blocks 42, and the lifting rope 61 may be detachably connected to the lifting lugs 44.

[0050] The sleeve 4 is provided with positioning blocks 42 at both ends, which can be used to fit either end of the sleeve 4 onto one end of the winding shaft 2, which facilitates installation. In addition, the positioning blocks 42 are provided with lifting lugs 44, which can provide connection points for the lifting ropes 61. The lifting ropes 61 can lift the lifting lugs 44 of the positioning blocks 42 at both ends of the sleeve 4, thereby lifting the sleeve 4 horizontally to keep the sleeve 4 in a horizontal and stable state when lifted, and improve the stability of the transfer.

[0051] Optimally, the clamping mechanism 3 includes: a fixed clamping plate 31, a movable clamping plate 32, a locking screw 33, and a locking nut 34;

[0052] The fixed clamping plate 31 is fixed to the bottom wall 22 below the shaft groove 21; the movable clamping plate 32 is movably limited to the top wall 23 above the shaft groove 21, and the clamping opening 30 is formed between the movable clamping plate 32 and the fixed clamping plate 31. The movable clamping plate 32 can be moved closer to or further away from the fixed clamping plate 31 to adjust the size of the clamping opening 30; both the fixed clamping plate 31 and the movable clamping plate 32 are provided with end plates 35 at the ends of the winding shaft 2, and the end plates 35 are provided with plate openings 36; the locking screw 33 passes through the plate openings 36 of both the fixed clamping plate 31 and the movable clamping plate 32 and is threadedly engaged with the locking nut 34.

[0053] The structure of the clamping mechanism 3 can be replaced by a known clamp; however, in this embodiment, the structure of the clamping mechanism 3 is simple, and the opening and closing of its clamping jaws 30 are easily adjustable; specifically, as shown in the figure... Figure 4 The fixed clamp 31 is fixed to the bottom wall 22 of the shaft groove 21, and the movable clamp 32 is disposed on the top wall 23 of the shaft groove 21. The groove opening of the shaft groove 21 is exposed on the left side of the take-up shaft 2, which means that the groove opening of the shaft groove 21 is in a horizontal orientation. The movable clamp 32 can move within the top wall 23 of the shaft groove 21. For example, a guide groove is provided in the top wall 23 of the shaft groove 21, and the upper end of the movable clamp 32 is adjustablely mounted in the guide groove. Initially, the movable clamp 32 and the fixed clamp are... 31 is opened to insert the filter cloth 10. The filter cloth 10 can be rolled up in several layers as appropriate. Then, the movable clamp 32 is moved toward the fixed clamp 31 so that the movable clamp 32 presses the filter cloth 10 firmly onto the fixed clamp 31. At this time, the end plates 35 at the end of the winding shaft 2 of both the fixed clamp 31 and the movable clamp 32 are locked. The locking screw 33 passes through the plate openings 36 of both the fixed clamp 31 and the movable clamp 32 and engages with the locking nut 34, so that the clamp 30 holds the filter cloth 10.

[0054] Alternatively, the fixed clamping plate 31 and the movable clamping plate 32 can be in contact via a clamping surface 37, which extends obliquely from the opening of the shaft groove 21 toward the bottom wall 22.

[0055] The groove of the shaft groove 21 is located between the top wall 23 and the bottom wall 22. The fixed clamping plate 31 and the movable clamping plate 32 are in contact through the clamping surface 37. When the groove of the shaft groove 21 is horizontally oriented to insert the fabric into the shaft groove 21, the fabric will be inclined into the shaft groove 21 under the action of gravity along the clamping surface 37 of the fixed clamping plate 31. The shaft groove 21 can accommodate more fabric, thereby increasing the clamping area of ​​the clamping opening 30 on the fabric at the end and improving the clamping stability of the fabric.

[0056] Optimally, the outer side of the sleeve 4 is provided with end platforms 45 protruding from the outer surface, and the end platforms 45 are disposed at both ends of the sleeve 4; a winding recess 46 for accommodating the filter cloth 10 is formed between the two end platforms 45; the positioning block 42 is disposed on the end platform 45.

[0057] The end platform 45 is located at both ends of the sleeve 4 and is used to accommodate the positioning block 42. It can also divide the winding recess 46 for accommodating the filter cloth 10. When the filter cloth 10 is wound, it is mainly wound in the winding recess 46. The end platform 45 and the positioning block 42 can prevent the filter cloth 10 from deviating significantly from the center of the sleeve 4 when it is wound, thereby improving the stability of the winding.

[0058] Optimally, it also includes: an X-axis moving mechanism 91 and a Y-axis moving mechanism 92;

[0059] The output end of the X-axis moving mechanism 91 is connected to the base 1 and is used to drive the base 1 to move in the X-axis direction, which is the length direction of the take-up shaft 2.

[0060] The output end of the Y-axis moving mechanism 92 is connected to the lifting device 6 and is used to drive the lifting device 6 to move along the Y-axis direction;

[0061] When the lifting rope 61 is connected to the sleeve 4, the X-axis moving mechanism 91 drives the winding shaft 2 to move, so that the winding shaft 2 gradually disengages from the sleeve 4, and the Y-axis moving mechanism 92 drives the lifting device 6 to move, so that the sleeve 4 moves away from the base 1.

[0062] This solution uses an X-axis moving mechanism 91 to drive the base 1 to move, and a Y-axis moving mechanism 92 to drive the lifting device 6 to move. Initially, the sleeve 4 is disconnected from the winding shaft 2. The X-axis moving mechanism 91 is activated, and the base 1 moves along the length of the winding shaft 2, thereby moving the winding shaft 2. The winding shaft 2 gradually detaches from the sleeve 4. The lifting device 6 then lifts the sleeve 4 using a rope 61. After the winding shaft 2 is completely detached from the sleeve 4, the sleeve 4 is lifted. The Y-axis moving mechanism 92 is then activated, and the sleeve 4 is moved away from the base 1, thus placing the sleeve 4 with the filter cloth 10 wound up in a designated location in the factory. Figure 3 Similarly, for a heavier sleeve 4, when it is necessary to install the sleeve 4, the lifting rope 61 can be used to lift the sleeve 4, and the Y-axis moving mechanism 92 can be used to drive the lifting device 6 to move it close to the base 1, and then the sleeve 4 can be installed into the winding shaft 2.

[0063] The X-axis moving mechanism 91 and the Y-axis moving mechanism 92 are known mechanisms with driving movement functions, such as combinations of gears and chains, combinations of motors and lead screws, moving trolleys, and robotic arms, as long as they can achieve driving linear movement.

[0064] A filter cloth processing system is provided with the above-mentioned filter cloth winding device.

[0065] Although embodiments of the present invention have been shown and described, those skilled in the art will understand that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the claims and their equivalents.

Claims

1. A filter cloth winding device, characterized by include: Base, winding shaft, clamping mechanism, sleeve, rotary drive, and lifting device; One end of the take-up shaft is rotatably mounted to the base; the side of the take-up shaft is provided with a shaft groove extending through the end; the clamping mechanism is mounted on the shaft groove, and the clamping mechanism is provided with a clamping jaw; the sleeve is detachably sleeved on the take-up shaft from the other end of the take-up shaft, and the sleeve is rotatably connected to the take-up shaft; the sleeve is provided with a sleeve opening, and the sleeve opening exposes the clamping jaw of the shaft groove; The output end of the rotary driver is connected to the take-up shaft, which drives the take-up shaft to rotate, thereby causing the sleeve to rotate. The lifting device is movably positioned above the winding shaft, and the lifting device is equipped with a lifting rope that is adjustable in height and is used to connect to the sleeve.

2. A filter cloth winding device according to claim 1, characterized in that Also includes: Turntable; The turntable is rotatably mounted on the base, and one end of the take-up shaft is fixed to the turntable; the turntable is provided with a plurality of positioning posts; the sleeve is provided with a positioning block, and the positioning block is provided with a positioning through groove; the positioning posts extend horizontally into the positioning through groove, so that the sleeve and the take-up shaft are connected to rotate synchronously.

3. A filter cloth winding device according to claim 2, characterized in that Also includes: Locking limit component; The positioning post has a post opening at one end extending out of the positioning through groove; the locking limiter is detachably installed at the post opening to prevent the positioning post from disengaging from the positioning through groove.

4. A filter cloth winding device according to claim 3, characterized in that, The sleeve has positioning blocks at both ends, and lifting lugs are provided on the outer side of the positioning blocks. The lifting rope is detachably connected to the lifting lugs.

5. A filter cloth winding device according to claim 1, characterized in that, The clamping mechanism includes: a fixed clamping plate, a movable clamping plate, a locking screw, and a locking nut; The fixed clamp is fixed to the bottom wall below the shaft groove; the movable clamp is movably limited to the top wall above the shaft groove, and the clamping opening is formed between the movable clamp and the fixed clamp. The movable clamp moves closer to or further away from the fixed clamp to adjust the size of the clamping opening; both the fixed clamp and the movable clamp are provided with end plates at the ends of the winding shaft, and the end plates are provided with plate openings; the locking screw passes through the plate openings of both the fixed clamp and the movable clamp and is threadedly engaged with the locking nut.

6. A filter cloth winding device according to claim 5, characterized in that, The fixed clamp and the movable clamp are in contact with each other through a clamping surface, which extends obliquely from the opening of the shaft groove toward the bottom wall.

7. A filter cloth winding device according to claim 4, characterized in that, The outer side of the sleeve is provided with end platforms protruding from the outer surface, and the end platforms are disposed at both ends of the sleeve; a winding recess for accommodating the filter cloth is formed between the two end platforms; the positioning block is disposed on the end platform.

8. A filter cloth winding device according to any one of claims 1-7, characterized in that, It also includes: X-axis moving mechanism and Y-axis moving mechanism; The output end of the X-axis moving mechanism is connected to the base and is used to drive the base to move in the X-axis direction, which is the length direction of the take-up shaft. The output end of the Y-axis moving mechanism is connected to the lifting device and is used to drive the lifting device to move along the Y-axis direction; When the hoisting rope is connected to the sleeve, the X-axis moving mechanism drives the winding shaft to move, causing the winding shaft to gradually detach from the sleeve. The Y-axis moving mechanism drives the lifting device to move, causing the sleeve to move away from the base.

9. A filter cloth processing system, characterized in that, The device comprises a filter cloth winding device as described in any one of claims 1-8.