An aerogel insulation film winder capable of uniform winding
By incorporating adjustable clamping and limiting components into the aerogel insulation film winding machine, the problem of left-right movement of the aerogel insulation film during winding is solved, achieving uniform winding and improving winding quality and efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- ANHUI KEANG NANO TECH CO LTD
- Filing Date
- 2026-05-06
- Publication Date
- 2026-06-09
AI Technical Summary
Existing aerogel insulation film winding machines can only clamp the film vertically during the winding process, and cannot restrict its lateral movement, resulting in uneven winding.
By employing adjustable clamping components set above and below the rotating roller, combined with left and right limiting components and graduated moving components, the aerogel heat insulation film can be wrinkle-proofed vertically and deviated horizontally, and accurately positioned for winding.
It achieves uniform winding of aerogel insulation film, solving the problem that traditional equipment can only clamp from top to bottom and cannot restrain lateral deviation, thus improving winding quality and efficiency.
Smart Images

Figure CN122166590A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of aerogel insulation films, and more particularly to an aerogel insulation film winding machine that can uniformly wind up the film. Background Technology
[0002] Aerogel insulation film is an ultra-thin, high-efficiency, and flexible insulation material made through a composite process with nanoporous silica aerogel as the core functional layer. Originating from aerospace technology, it is now widely used in electronics, construction, industry and other fields.
[0003] Currently, aerogel insulation films are wound into finished products using a winding machine. However, the patent application CN221607279U, which proposes a method that combines a left rolling component, a traction component, a clamping component, and a right rolling component, allows the aerogel insulation film to be laid more evenly during the winding process. This prevents the aerogel insulation film from wrinkling during winding, and makes the winding component more uniform in winding the aerogel insulation film. As a result, the finished product is more perfect, thus improving the winding efficiency of the device and further enhancing its practicality.
[0004] However, current winding devices use clamping components to squeeze and limit the aerogel insulation film during the winding process. This method can only clamp the aerogel insulation film vertically, but it cannot limit the movement of the aerogel insulation film to the left or right during the winding process.
[0005] Therefore, it is necessary to provide an aerogel insulation film winding machine that can uniformly wind up the film to solve the above-mentioned technical problems. Summary of the Invention
[0006] This invention provides an aerogel insulation film winding machine that can uniformly wind up the film, solving the problem that the clamping components used in the winding device can only clamp the aerogel insulation film vertically, but cannot limit the movement of the aerogel insulation film when it moves left or right during the winding process.
[0007] To solve the above-mentioned technical problems, the present invention provides an aerogel insulation film winding machine capable of uniform winding, comprising:
[0008] Operating table, two winding devices, two fixed plates, rotating roller, adjusting assembly, moving assembly, two limiting assemblies, two first limiting members and two second limiting members;
[0009] The two winding devices are respectively located at both ends of the operating table;
[0010] The two fixing plates are symmetrically installed on both sides of the center position of the operating table surface;
[0011] The rotating roller is disposed between the two fixed plates;
[0012] The adjustment assembly is disposed between the two fixed plates and above the rotating roller;
[0013] The movable component is disposed between the two fixed plates and below the rotating roller;
[0014] Two limiting components are symmetrically arranged on both sides of the moving component. Each limiting component includes a telescopic rod, two fixing blocks, two arc-shaped limiting sleeves, and a bolt. The two fixing blocks are respectively connected to the top and bottom of the telescopic rod, the two arc-shaped limiting sleeves are respectively connected to one end of the two fixing blocks, and the bolt is disposed on the telescopic rod.
[0015] Two first limiting members and two second limiting members are respectively disposed on both sides of the operating table surface.
[0016] Preferably, the winding device includes two hydraulic telescopic rods, a bracket, and a winding roller, wherein the bracket is connected between the two hydraulic telescopic rods, and the winding roller is disposed inside the bracket.
[0017] Preferably, both ends of the operating platform are provided with circular mounting slots that are adapted to the two sets of hydraulic telescopic rods.
[0018] Preferably, the adjustment assembly includes two L-shaped fixing rods, two adjusting sleeves, an adjusting roller, and two latches. The two L-shaped fixing rods are respectively connected to one side of the two fixing plates, the two adjusting sleeves are respectively fitted onto the surfaces of the two L-shaped fixing rods, the adjusting roller is disposed between the two adjusting sleeves, and the two latches are respectively disposed between the two adjusting sleeves and the two L-shaped fixing rods.
[0019] Preferably, the moving component includes a scale rod, two moving sleeves, and two limiting bolts. The two moving sleeves are respectively sleeved on the surface of the scale rod, and the two limiting bolts are respectively disposed between the two moving sleeves and the scale rod.
[0020] Preferably, a stop block is connected to the top of each of the two L-shaped fixing rods, and a dividing block is provided at the center of the scale rod.
[0021] Preferably, a disassembly assembly is provided between the scale rod and the two fixed plates. The disassembly assembly includes a U-shaped groove, an external threaded block, and a threaded connecting sleeve. The U-shaped groove is formed on the surface of the fixed plate, the external threaded block is connected to one end of the scale rod, and the threaded connecting sleeve is threaded to the surface of the external threaded block.
[0022] Preferably, protective components are provided on both sides of the operating table. The protective components include a mounting base, a protective cover, two operating slots, and threaded fixing bolts. The mounting base is connected to the side of the operating table, and the protective cover is connected to the surface of the mounting base.
[0023] Preferably, the two operating slots are symmetrically formed on the surface of the protective cover, and the threaded fixing bolts are disposed between the mounting base and the operating table.
[0024] Preferably, a snap-fit assembly is provided between the fixed plate and the operating table. The snap-fit assembly includes a snap-fit groove, a snap-fit block, and a snap-fit bolt. The snap-fit groove is formed on the surface of the operating table. The snap-fit block is disposed inside the snap-fit groove and connected to the fixed plate. The snap-fit bolt is disposed between the snap-fit block and the operating table.
[0025] Compared with related technologies, the aerogel insulation film winding machine that can uniformly wind up provided by the present invention has the following beneficial effects:
[0026] This invention provides an aerogel insulation film winding machine that can uniformly wind up the film. By setting adjustable clamping components on the upper and lower parts of the rotating roller, setting precise positioning limiting components on the left and right sides of the film, and cooperating with a scaled moving component, the machine can simultaneously achieve anti-wrinkle function on the upper and lower parts of the aerogel insulation film, anti-deviation function on the left and right sides, and precise positioning and winding, thus completely solving the problem that traditional equipment can only clamp the film from the upper and lower parts and cannot restrain lateral deviation. Attached Figure Description
[0027] Figure 1 This is a schematic diagram of the structure of a first embodiment of an aerogel heat insulation film winding machine that can be uniformly wound up according to the present invention;
[0028] Figure 2 for Figure 1 The enlarged schematic diagram of part A shown below;
[0029] Figure 3 for Figure 1 The enlarged schematic diagram of section B is shown below;
[0030] Figure 4 for Figure 1 The enlarged schematic diagram of section C is shown below;
[0031] Figure 5 for Figure 1 The diagram shows a three-dimensional structure of the winding machine.
[0032] Figure 6 for Figure 5 The enlarged schematic diagram of part D is shown below;
[0033] Figure 7 for Figure 5 The enlarged schematic diagram of part E is shown below;
[0034] Figure 8 This is a schematic diagram of the structure of a second embodiment of an aerogel heat insulation film winding machine that can be uniformly wound up according to the present invention;
[0035] Figure 9 This is a schematic diagram of the third embodiment of an aerogel heat insulation film winding machine that can be uniformly wound up according to the present invention.
[0036] Numbered in the diagram: 1. Control panel
[0037] 2. Winding device; 21. Hydraulic telescopic rod; 22. Support frame; 23. Winding roller.
[0038] 3. Circular mounting groove; 4. Fixing plate; 6. Rotating roller.
[0039] 7. Adjustment assembly; 71. L-shaped fixing rod; 72. Adjustment sleeve; 73. Adjustment roller; 74. Buckle.
[0040] 8. Moving component; 81. Scale rod; 82. Moving sleeve; 83. Limit bolt.
[0041] 9. Divider blocks
[0042] 10. Limiting assembly; 101. Telescopic rod; 102. Fixing block; 103. Arc-shaped limiting sleeve; 104. Bolt.
[0043] 11. Disassemble the components; 111. U-shaped groove; 112. External threaded block; 113. Threaded connecting sleeve.
[0044] 12. Stop block; 13. First limiting component; 14. Second limiting component.
[0045] 15. Protective components; 151. Mounting base; 152. Protective cover; 153. Operating slot; 154. Threaded retaining bolt.
[0046] 16. Snap-fit assembly; 161. Snap-fit slot; 162. Snap-fit block; 163. Snap-fit bolt. Detailed Implementation
[0047] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0048] First Embodiment
[0049] Please refer to the following: Figure 1 , Figure 2 , Figure 3 , Figure 4 , Figure 5 , Figure 6 and Figure 7 ,in, Figure 1This is a schematic diagram of the structure of a first embodiment of an aerogel heat insulation film winding machine that can be uniformly wound up according to the present invention; Figure 2 for Figure 1 The enlarged schematic diagram of part A shown below; Figure 3 for Figure 1 The enlarged schematic diagram of section B is shown below; Figure 4 for Figure 1 The enlarged schematic diagram of section C is shown below; Figure 5 for Figure 1 The diagram shows a three-dimensional structure of the winding machine. Figure 6 for Figure 5 The enlarged schematic diagram of part D is shown below; Figure 7 for Figure 5 The enlarged schematic diagram of part E is shown. A rewinding machine for aerogel insulation film capable of uniformly winding includes:
[0050] 1. Operating table; 2. Two winding devices; 4. Two fixed plates; 6. Rotating roller; 7. Adjustment assembly; 8. Moving assembly; 10. Two limiting assemblies; 13. Two first limiting members; 14. Second limiting member;
[0051] The two winding devices 2 are respectively disposed at both ends of the operating table 1;
[0052] The two fixing plates 4 are symmetrically installed on both sides of the center position of the surface of the operating table 1;
[0053] The rotating roller 6 is disposed between the two fixed plates 4;
[0054] The adjustment component 7 is disposed between the two fixed plates 4 and above the rotating roller 6;
[0055] The moving component 8 is disposed between the two fixed plates 4 and located below the rotating roller 6;
[0056] Two limiting components 10 are symmetrically arranged on both sides of the moving component 8. Each limiting component 10 includes a telescopic rod 101, two fixing blocks 102, two arc-shaped limiting sleeves 103, and a bolt 104. The two fixing blocks 102 are respectively connected to the top and bottom of the telescopic rod 101, the two arc-shaped limiting sleeves 103 are respectively connected to one end of the two fixing blocks 102, and the bolt 104 is disposed on the telescopic rod 101.
[0057] Two first limiting members 13 and two second limiting members 14 are respectively disposed on both sides of the surface of the operating table 1.
[0058] The winding device 2 includes two hydraulic telescopic rods 21, a bracket 22, and a winding roller 23. The bracket 22 is connected between the two hydraulic telescopic rods 21, and the winding roller 23 is disposed inside the bracket 22.
[0059] Both ends of the operating platform 1 are provided with circular mounting slots 3 that are adapted to the two sets of hydraulic telescopic rods 21.
[0060] The adjustment assembly 7 includes two L-shaped fixing rods 71, two adjusting sleeves 72, an adjusting roller 73, and two latches 74. The two L-shaped fixing rods 71 are respectively connected to one side of the two fixing plates 4. The two adjusting sleeves 72 are respectively sleeved on the surface of the two L-shaped fixing rods 71. The adjusting roller 73 is disposed between the two adjusting sleeves 72. The two latches 74 are respectively disposed between the two adjusting sleeves 73 and the two L-shaped fixing rods 71.
[0061] The movable component 8 includes a scale rod 81, two movable sleeves 82 and two limiting bolts 83. The two movable sleeves 82 are respectively sleeved on the surface of the scale rod 81, and the two limiting bolts 83 are respectively disposed between the two movable sleeves 82 and the scale rod 81.
[0062] Both L-shaped fixing rods 71 are connected to a stop block 12 at their tops, and a dividing block 9 is provided at the center of the scale rod 81.
[0063] A disassembly assembly 11 is provided between the scale rod 81 and the two fixed plates 4. The disassembly assembly 11 includes a U-shaped groove 111, an external threaded block 112, and a threaded connecting sleeve 113. The U-shaped groove 111 is formed on the surface of the fixed plate 4. The external threaded block 112 is connected to one end of the scale rod 81, and the threaded connecting sleeve 113 is threaded to the surface of the external threaded block 112.
[0064] The hydraulic lifting winding device 2 at both ends can adapt to changes in roll diameter, ensuring stable winding tension and uniform and neat roll body; the disassembly component 11 facilitates quick disassembly and maintenance, and the first limiting component 13 and the second limiting component 14 further enhance the conveying stability, greatly improving winding quality, production efficiency and equipment versatility.
[0065] The disassembly component 11 facilitates quick disassembly and maintenance of the scale rod 81. The opening of the U-shaped groove 111 facilitates the installation of the external thread block 112 on the fixed plate 4. The use of the external thread block 112 and the threaded connecting sleeve 113 enables the installation and disassembly of the moving component 8 and the two fixed plates 4.
[0066] The stop block 12 prevents the adjusting sleeve 72 from slipping off. A dividing block 9 is fixedly set at the center of the scale rod 81 as a reference for left and right symmetrical adjustment to ensure that the positions of the limiting components on both sides are symmetrical.
[0067] The limiting bolt 83 is used to lock the position of the moving sleeve 82 to achieve precise positioning. The adjusting roller 73 is rotatably set between the two adjusting sleeves 72 and cooperates with the rotating roller 6 to form a film material channel. The two clamps 74 are respectively set between the two adjusting sleeves 72 and the two L-shaped fixing rods 71. Tightening can lock the height of the adjusting sleeve and realize the adjustment of the clamping force.
[0068] The circular mounting groove 3 is used for bottom positioning and installation of the hydraulic telescopic rod 21 to ensure that the lifting is vertical and does not deviate.
[0069] The hydraulic telescopic rod 21 can drive the bracket 22 and the winding roller 23 to rise and fall as a whole, adapting to different winding diameter requirements and ensuring stable winding tension.
[0070] The two first limiting members 13 and the two second limiting members 14 can assist in limiting and guiding the membrane material conveying path, further reducing deviation.
[0071] Two limiting components 10 are symmetrically installed on the left and right sides of the moving component 8 to limit the aerogel insulation film on both sides and prevent the film material from shifting laterally during the winding process.
[0072] The two arc-shaped limiting sleeves 103 are respectively fixedly connected to the opposite ends of the two fixing blocks 102, and the arc-shaped inner wall fits in close contact with the surface of the rotating roller 6 and the adjusting roller 73; the bolt 104 is set on the telescopic rod 101 to lock the length of the telescopic rod and adjust the limiting distance.
[0073] The working principle of the aerogel insulation film winding machine that can uniformly wind up provided by the present invention is as follows:
[0074] Before use, adjust the position of the two limiting components 10 according to the width of the aerogel insulation film by moving component 8: loosen the limiting bolt 83, slide the moving sleeve 82 along the scale rod 81, and adjust the two limiting components 10 to the distance that matches the width of the film by referring to the scale and the center dividing block 9, and then tighten the limiting bolt 83 to fix it.
[0075] Adjust the height of the adjusting component 7: loosen the bolt 74, slide the adjusting sleeve 72 up and down so that the gap between the adjusting roller 73 and the rotating roller 6 is slightly less than the thickness of the film material, forming a moderate pressure, and tighten the bolt 74 to lock it.
[0076] Then adjust the limiting component 10: loosen the bolt 104, extend and retract the length of the telescopic rod 101 so that the arc-shaped limiting sleeve 103 fits the left and right edges of the membrane material to achieve double-sided limiting, and then tighten the bolt 104 to fix it.
[0077] The aerogel insulation film is sequentially passed through the first limiting member 13, the second limiting member 14, the rotating roller 6, and the adjusting roller 73, with both ends fixed to the left and right take-up rollers 23 respectively. The take-up device 2 is started, and the take-up roller 23 rotates to pull the film material; the hydraulic telescopic rod 21 automatically fine-tunes its height according to the take-up roll diameter to maintain uniform take-up tension.
[0078] During the conveying process, the adjusting roller 73 and the rotating roller 6 achieve vertical clamping to prevent wrinkles, while the arc-shaped limiting sleeve 103 provides left and right limiting to prevent deviation. Together with the first limiting component 13 and the second limiting component 14, they assist in guiding the aerogel insulation film, ensuring stable conveying and uniform winding throughout the process. When changing specifications, simply loosen the corresponding bolts and clips for quick adjustment to accommodate membrane materials of different widths and thicknesses.
[0079] Compared with related technologies, the aerogel insulation film winding machine that can uniformly wind up provided by the present invention has the following beneficial effects:
[0080] This invention provides an aerogel heat insulation film winding machine that can uniformly wind up the film. By setting adjustable pressing adjustment components 7 on the upper and lower parts of the rotating roller 6, and setting precise positioning limiting components 10 on the left and right sides of the film, and cooperating with the scaled moving component 8, the machine can simultaneously achieve anti-wrinkle effect on the upper and lower parts of the aerogel heat insulation film, anti-deviation effect on the left and right sides, and precise positioning and winding, thus completely solving the problem that traditional equipment can only clamp the film from the upper and lower parts and cannot restrain lateral deviation.
[0081] Second Embodiment
[0082] Please refer to the following: Figure 8 Based on the aerogel insulation film winding machine that can uniformly wind up provided in the first embodiment of this application, the second embodiment of this application proposes another aerogel insulation film winding machine that can uniformly wind up. The second embodiment is merely a preferred embodiment of the first embodiment, and the implementation of the second embodiment will not affect the separate implementation of the first embodiment.
[0083] Specifically, the second embodiment of this application provides a uniformly rewindable aerogel insulation film rewinding machine, which differs in that it also includes two protective components 15. The two protective components 15 are respectively disposed on both sides of the operating table 1. Each protective component 15 includes a mounting base 151, a protective cover 152, two operating slots 153 and a threaded fixing bolt 154. The mounting base 151 is connected to the side of the operating table 1, and the protective cover 152 is connected to the surface of the mounting base 151.
[0084] Two operating slots 153 are symmetrically opened on the surface of the protective cover 152, and the threaded fixing bolts 154 are disposed between the mounting base 151 and the operating table 1.
[0085] The protective cover 152 is used to protect the operating area, prevent operators from accidentally touching rotating parts, and avoid dust and debris from contaminating the membrane material.
[0086] The protective cover 152 is made of transparent and wear-resistant material, which makes it easy to observe the internal operating status. The operating slots 153 are symmetrically opened on the surface of the protective cover 152, which provide channels for the membrane material to enter and exit without affecting normal conveying operations.
[0087] The working principle of the aerogel insulation film winding machine that can uniformly wind up provided by the present invention is as follows:
[0088] The mounting base 151 and the protective cover 152 are fixed to the front and rear sides of the operating table 1 by the threaded fixing bolts 154. The protective cover 152 covers the rotating roller 6, the adjusting component 7, the limiting component 10 and other moving parts. The protective cover 152 prevents the operator's hands from contacting the rotating roller shaft and the membrane material transmission area, avoiding the risk of pinching and scratching. At the same time, it prevents dust and debris from falling into the equipment and contaminating the membrane material. When debugging or changing the mold is required, the protective cover 152 can be quickly removed by unscrewing the threaded fixing bolts 154, which is convenient.
[0089] Compared with related technologies, the aerogel insulation film winding machine that can uniformly wind up provided by the present invention has the following beneficial effects:
[0090] This invention provides an aerogel insulation film winding machine that can be uniformly wound up. By adding a protective component 15 consisting of a mounting base 151, a protective cover 152, an operating groove 153 and a threaded fixing bolt 154 to both sides of the operating table 1, the safety of equipment operation is significantly improved without affecting the normal transport of the film material, and the machine effectively prevents personnel from accidentally touching and getting injured and external debris from contaminating the film material.
[0091] Third Embodiment
[0092] Please refer to the following: Figure 9 Based on the aerogel insulation film winding machine that can uniformly wind up provided in the first embodiment of this application, the third embodiment of this application proposes another aerogel insulation film winding machine that can uniformly wind up. The third embodiment is merely a preferred embodiment of the first embodiment, and the implementation of the third embodiment will not affect the separate implementation of the first embodiment.
[0093] Specifically, the third embodiment of this application provides a uniformly rewindable aerogel insulation film rewinding machine, which differs in that it further includes a snap-fit assembly 16. The snap-fit assembly 16 is disposed between the fixed plate 4 and the operating table 1. The snap-fit assembly 16 includes a snap-fit groove 161, a snap-fit block 162, and a snap-fit bolt 163. The snap-fit groove 161 is formed on the surface of the operating table 1. The snap-fit block 162 is disposed inside the snap-fit groove 161 and connected to the fixed plate 4. The snap-fit bolt 163 is disposed between the snap-fit block 162 and the operating table 1.
[0094] The shape of the snap-fit groove 161 matches the snap-fit block 162. The snap-fit block 162 is fixedly set at the bottom of the fixing plate 4 and snap-fitted into the inside of the snap-fit groove 161 to achieve positioning and prevent deviation. The snap-fit bolt 163 is horizontally set between the snap-fit block 162 and the operating table 1. Tightening it can achieve firm fixation, and loosening it can quickly disassemble it.
[0095] The working principle of the aerogel insulation film winding machine that can uniformly wind up provided by the present invention is as follows:
[0096] During installation, align the snap-fit block 162 at the bottom of the fixing plate 4 with the snap-fit groove 161 on the operating table 1 and snap it in to achieve initial positioning and anti-shaking. Then tighten the snap-fit bolt 163 to lock the snap-fit block 162 and the operating table 1 to ensure that the fixing plate 4 is stable and does not loosen during the winding operation.
[0097] When disassembly, maintenance, or specification replacement is required, unscrew the locking bolt 163, lift the fixing plate 4 upwards, and let the locking block 162 disengage from the locking groove 161. Then, the intermediate mechanism, including the fixing plate 4, rotating roller 6, adjusting component 7, and limiting component 10, can be removed as a whole for cleaning, maintenance, or replacement. The operation is simple and quick.
[0098] Compared with related technologies, the aerogel insulation film winding machine that can uniformly wind up provided by the present invention has the following beneficial effects:
[0099] This invention provides an aerogel insulation film winding machine that can be uniformly wound up. By setting a snap-fit assembly 16 consisting of a snap-fit groove 161, a snap-fit block 162, and a snap-fit bolt 163 between the fixed plate 4 and the operating table 1, the intermediate guide adjustment mechanism can be quickly disassembled and assembled, which greatly simplifies the equipment maintenance, changeover, and cleaning process, reduces downtime, and improves equipment maintenance efficiency.
[0100] The above description is merely an embodiment of the present invention and does not limit the patent scope of the present invention. Any equivalent structural or procedural transformations made based on the content of the present invention specification and drawings, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of the present invention.
Claims
1. A rewinding machine for aerogel insulation film capable of uniformly winding, characterized in that, include: Operating table, two winding devices, two fixed plates, rotating roller, adjusting assembly, moving assembly, two limiting assemblies, two first limiting members and two second limiting members; The two winding devices are respectively located at both ends of the operating table; The two fixing plates are symmetrically installed on both sides of the center position of the operating table surface; The rotating roller is disposed between the two fixed plates; The adjustment assembly is disposed between the two fixed plates and above the rotating roller; The movable component is disposed between the two fixed plates and below the rotating roller; Two limiting components are symmetrically arranged on both sides of the moving component. Each limiting component includes a telescopic rod, two fixing blocks, two arc-shaped limiting sleeves, and a bolt. The two fixing blocks are respectively connected to the top and bottom of the telescopic rod, the two arc-shaped limiting sleeves are respectively connected to one end of the two fixing blocks, and the bolt is disposed on the telescopic rod. Two first limiting members and two second limiting members are respectively disposed on both sides of the operating table surface.
2. The aerogel insulation film winding machine capable of uniform winding according to claim 1, characterized in that, The winding device includes two hydraulic telescopic rods, a support, and a winding roller. The support is connected between the two hydraulic telescopic rods, and the winding roller is disposed inside the support.
3. The aerogel insulation film winding machine capable of uniform winding according to claim 2, characterized in that, Both ends of the control panel are provided with circular mounting slots that are compatible with the two sets of hydraulic telescopic rods.
4. The aerogel insulation film winding machine capable of uniform winding according to claim 1, characterized in that, The adjustment assembly includes two L-shaped fixing rods, two adjusting sleeves, an adjusting roller, and two latches. The two L-shaped fixing rods are respectively connected to one side of the two fixing plates. The two adjusting sleeves are respectively fitted onto the surfaces of the two L-shaped fixing rods. The adjusting roller is disposed between the two adjusting sleeves. The two latches are respectively disposed between the two adjusting sleeves and the two L-shaped fixing rods.
5. The aerogel insulation film winding machine capable of uniform winding according to claim 4, characterized in that, The movable component includes a scale rod, two movable sleeves, and two limiting bolts. The two movable sleeves are respectively fitted onto the surface of the scale rod, and the two limiting bolts are respectively disposed between the two movable sleeves and the scale rod.
6. The aerogel insulation film winding machine capable of uniform winding according to claim 5, characterized in that, Both L-shaped fixing rods have a stop block connected to their tops, and a dividing block is provided at the center of the scale rod.
7. The aerogel insulation film winding machine capable of uniform winding according to claim 5, characterized in that, A disassembly assembly is provided between the scale rod and the two fixed plates. The disassembly assembly includes a U-shaped groove, an external threaded block, and a threaded connecting sleeve. The U-shaped groove is formed on the surface of the fixed plate. The external threaded block is connected to one end of the scale rod, and the threaded connecting sleeve is threaded to the surface of the external threaded block.
8. The aerogel insulation film winding machine capable of uniform winding according to claim 1, characterized in that, Both sides of the operating table are provided with protective components. The protective components include a mounting base, a protective cover, two operating slots and threaded fixing bolts. The mounting base is connected to the side of the operating table and the protective cover is connected to the surface of the mounting base.
9. The aerogel insulation film winding machine capable of uniform winding according to claim 8, characterized in that, Two operating slots are symmetrically formed on the surface of the protective cover, and the threaded fixing bolts are disposed between the mounting base and the operating table.
10. The aerogel insulation film winding machine capable of uniform winding according to claim 1, characterized in that, A snap-fit assembly is provided between the fixed plate and the operating table. The snap-fit assembly includes a snap-fit groove, a snap-fit block, and a snap-fit bolt. The snap-fit groove is formed on the surface of the operating table. The snap-fit block is disposed inside the snap-fit groove and connected to the fixed plate. The snap-fit bolt is disposed between the snap-fit block and the operating table.