Aluminum-plastic composite shielding foil slitting machine
By introducing a drive motor and a precision transmission system into the slitting machine, combined with adjusting rollers and positioning rollers, the problems of precision and synchronization in the cutting process of aluminum-plastic composite shielding foil were solved, achieving efficient and stable cutting and winding effects.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUBEI KING PLASTIC COMPOSITE MATERIAL CO LTD
- Filing Date
- 2025-07-25
- Publication Date
- 2026-07-03
AI Technical Summary
Existing slitting equipment suffers from low precision, inconvenient operation, and low automation when processing aluminum-plastic composite shielding foil, resulting in low production efficiency and unstable product quality. The lack of an effective synchronous control mechanism also affects the coordination and consistency of the cutting and winding processes.
By employing a drive motor within the support frame and a precision transmission system within the transmission box, combined with the adjusting wheel connection between the contact plate and the cutting rod, and by setting adjustment blocks and positioning wheels, precise control and synchronous transmission of the cutting process are achieved, thereby improving the accurate positioning and cutting consistency of the aluminum-plastic composite shielding foil.
It improves the accuracy and consistency of cutting, enhances work efficiency and finished product quality, reduces quality problems caused by positional deviations, and achieves efficient cutting and winding of aluminum-plastic composite shielding foil.
Smart Images

Figure CN224449758U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of slitting machines, specifically to an aluminum-plastic composite shielding foil slitting machine. Background Technology
[0002] A Chinese patent for a slitting machine (application number: CN201410385414.0) is used for slitting web paper. It includes a first traction mechanism, a second traction mechanism, a buffer mechanism, and a cutting mechanism. The second traction mechanism and the buffer mechanism are positioned between the first traction mechanism and the cutting mechanism. The buffer mechanism is positioned between the first and second traction mechanisms. The second traction mechanism is positioned between the buffer mechanism and the cutting mechanism. The second traction mechanism is used to change the transport speed of the web paper according to the cutting requirements. The buffer mechanism is used to retain or release the web paper according to the cutting requirements. Compared with the prior art, this invention uses a traction mechanism and a corresponding buffer mechanism, allowing the traction mechanism to track the cutting mechanism to change the feed rate of the paper web, thereby obtaining cut paper webs of different specifications. It has the advantages of low energy consumption, low vibration, and reduced noise.
[0003] Existing slitting equipment often suffers from low precision, inconvenient operation, and low automation, leading to low production efficiency and unstable product quality. Especially when processing high-requirement aluminum-plastic composite shielding foil, ensuring precision and stability during the cutting process while simultaneously improving production efficiency becomes a pressing issue. Such existing equipment typically lacks effective synchronous control mechanisms, making it difficult to guarantee coordination between the cutting and winding processes. This not only affects the quality of the finished product but also increases production costs. Summary of the Invention
[0004] To address the shortcomings of existing technologies, this utility model provides an aluminum-plastic composite shielding foil slitting machine.
[0005] The technical solution of this utility model is as follows:
[0006] This utility model provides an aluminum-plastic composite shielding foil slitting machine, including a support frame, a transmission plate at the top of the support frame, a contact plate on one side of the transmission plate, a cutting rod inside the transmission plate, a transmission wheel on one side of the transmission plate, a transmission motor inside the support frame, a transmission box between the support frame and the transmission plate, a winding device on one side of the transmission plate, a control frame at the top of the transmission plate, a transmission box at the bottom of the control frame, and an adjusting block at the bottom of the transmission box.
[0007] Optionally, there are two transmission plates, and the contact plate, the winding device, and the control frame are all fixedly installed outside the two transmission plates, with the cutting rod passing through both transmission plates.
[0008] Optionally, the contact plate is provided with a roller, and the winding device is provided with a winding roller.
[0009] Optionally, the cutting rod includes a first cutting rod and a second cutting rod. A cutting strip is provided on the outside of the cutting rod. A rotating block is provided after the cutting rod passes through the transmission plate. The rotating block is engaged with the first cutting rod and the second cutting rod.
[0010] Optionally, the support frame is provided with a contact base plate, which is connected to the drive motor. A drive chain is provided between the output end of the drive motor and the rotating block, and the drive chain is located inside the transmission box.
[0011] Optionally, an adjusting wheel is provided between the cutting rod and the contact plate, and the adjusting wheel is connected to the rolling wheel.
[0012] Optionally, the transmission box has a movable hole on its exterior, the adjusting block passes through the movable hole, a fixing screw is provided after the adjusting block passes through the transmission box, and a positioning wheel is provided at the bottom of the adjusting block.
[0013] The beneficial effects achieved by this utility model are as follows:
[0014] This invention achieves precise control over the cutting process of the cutting strip by setting a drive motor inside the support frame and a precision transmission system inside the transmission box, thereby improving the accuracy and consistency of cutting. By utilizing the adjustment wheel connection between the contact plate and the cutting rod, transmission and cutting can be carried out synchronously, greatly improving work efficiency and product quality. The control frame with adjustment blocks and positioning wheels at the bottom help to more easily and accurately position the incoming aluminum-plastic composite shielding foil material, reducing quality problems caused by positional deviations. Attached Figure Description
[0015] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0016] Figure 2 This is a structural schematic diagram of the entire utility model from another perspective;
[0017] Figure 3 This is a partial structural schematic diagram of the present invention;
[0018] Figure 4 This is a schematic diagram of the connection structure of the control frame.
[0019] In the diagram, 1. Support frame; 2. Transmission plate; 3. Contact plate; 301. Rolling wheel; 302. Adjusting wheel; 4. Cutting rod; 4A. Cutting rod one; 4B. Cutting rod two; 401. Cutting strip; 402. Rotating block; 5. Transmission wheel; 501. Transmission outer wheel; 6. Transmission motor; 601. Contact base plate; 7. Transmission box; 701. Transmission chain; 8. Winder; 801. Winding roller; 9. Control frame; 10. Transmission box; 1001. Moving hole; 11. Adjusting block; 1101. Fixing wire; 1102. Positioning wheel. Detailed Implementation
[0020] To facilitate understanding of this utility model by those skilled in the art, the specific embodiments of this utility model are described below with reference to the accompanying drawings.
[0021] Example 1
[0022] like Figure 1-4 As shown, this utility model provides an aluminum-plastic composite shielding foil slitting machine, including a support frame 1, a transmission plate 2 on the top of the support frame 1, a contact plate 3 on one side of the transmission plate 2, a cutting rod 4 inside the transmission plate 2, a transmission wheel 5 on one side of the transmission plate 2, a transmission motor 6 inside the support frame 1, a transmission box 7 between the support frame 1 and the transmission plate 2, a winding device 8 on one side of the transmission plate 2, a control frame 9 on the top of the transmission plate 2, a transmission box 10 at the bottom of the control frame 9, and an adjusting block 11 at the bottom of the transmission box 10.
[0023] This invention achieves precise control over the cutting process of the cutting strip 401 by setting up a transmission motor 6 inside the support frame 1 and a precision transmission system inside the transmission box 7, thereby improving the accuracy and consistency of cutting. By utilizing the connection method of the adjusting wheel 302 between the contact plate 3 and the cutting rod 4, the transmission and cutting can be carried out synchronously, which greatly improves work efficiency and product quality. The control frame 9 with adjusting block 11 and the positioning wheel 1102 at the bottom are set up to help the aluminum-plastic composite shielding foil material to be accurately positioned more easily, reducing quality problems caused by position deviation.
[0024] Example 2
[0025] like Figure 1-3 As shown, there are two transmission plates 2. The contact plate 3, the winding device 8 and the control frame 9 are all fixedly installed on the outside of the two transmission plates 2. The cutting rod 4 passes through the two transmission plates 2.
[0026] In this embodiment, a roller 301 is provided on the outside of the contact plate 3, and a winding roller 801 is provided on the outside of the winding device 8.
[0027] In use, the contact plate 3 and the roller 301 facilitate the entry of objects, and the winding device 8 is used to assist in controlling the winding of objects, which facilitates subsequent control and cutting and improves work efficiency.
[0028] In this embodiment, the cutting rod 4 includes a first cutting rod 4A and a second cutting rod 4B. A cutting strip 401 is provided on the outside of the cutting rod 4. After the cutting rod 4 passes through the transmission plate 2, a rotating block 402 is provided. The rotating block 402 is engaged between the first cutting rod 4A and the second cutting rod 4B.
[0029] In use, the rotating block 402 can drive the rotation of the cutting rod 4, and the cutting strip 401 between the two cutting rods 4 can assist in controlling the cutting.
[0030] In this embodiment, a contact base plate 601 is provided inside the support frame 1. The contact base plate 601 is connected to the drive motor 6. A drive chain 701 is provided between the output end of the drive motor 6 and the rotating block 402. The drive chain 701 is located inside the transmission box 7.
[0031] In use, the transmission of the drive motor 6 can be used to easily drive the rotation of the cutting rod 4 through the transmission chain 701, and the cutting adjustment can be controlled by the cutting rod 4.
[0032] In this embodiment, an adjusting wheel 302 is provided between the cutting rod 4 and the contact plate 3, and the adjusting wheel 302 is connected to the rolling wheel 301.
[0033] Specifically, the rotation of the cutting rod 4 can drive the rotation of the object on top of the contact plate 3, so the cutting and transmission run synchronously during transmission.
[0034] Example 3
[0035] like Figure 4 As shown, the transmission box 10 has a moving hole 1001 on its outside. The adjusting block 11 passes through the moving hole 1001. After the adjusting block 11 passes through the transmission box 10, a fixing screw 1101 is provided. A positioning wheel 1102 is provided at the bottom of the adjusting block 11.
[0036] Specifically, by setting the fixing wire 1101, the position of the adjusting block 11 in the transmission box 10 can be adjusted to ensure the auxiliary positioning of the aluminum-plastic composite shielding foil transmitted by the auxiliary control, which facilitates subsequent cutting.
[0037] In summary, by setting the drive motor 6 inside the support frame 1 and the internal transmission of the transmission box 7, the cutting of the cutting strip 401 can be controlled. The contact plate 3 is used to assist the transmission, and the winding device 8 is used to assist the winding. At the same time, the contact plate 3 and the cutting rod 4 are connected by the adjusting wheel 302 to control the transmission and cutting synchronously. Furthermore, the control frame 9, together with the adjusting block 11 and the positioning wheel 1102 at the bottom, can assist the aluminum-plastic composite shielding foil to enter and facilitate positioning.
[0038] The embodiments of this utility model described above do not constitute a limitation on the scope of protection of this utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this utility model should be included within the scope of protection of the claims of this utility model.
Claims
1. An aluminum laminate shielding foil slitting machine characterized by: The device includes a support frame (1), a transmission plate (2) on the top of the support frame (1), a contact plate (3) on one side of the transmission plate (2), a cutting rod (4) inside the transmission plate (2), a transmission wheel (5) on one side of the transmission plate (2), a transmission motor (6) inside the support frame (1), a transmission box (7) between the support frame (1) and the transmission plate (2), a winding device (8) on one side of the transmission plate (2), a control frame (9) on the top of the transmission plate (2), a transmission box (10) at the bottom of the control frame (9), and an adjusting block (11) at the bottom of the transmission box (10).
2. The aluminum laminate shield foil slitter according to claim 1, characterized in that: There are two transmission plates (2). The contact plate (3), the winding device (8) and the control frame (9) are all fixedly installed outside the two transmission plates (2). The cutting rod (4) passes through the two transmission plates (2).
3. The aluminum laminate shield foil slitter as claimed in claim 1, characterized by: The contact plate (3) is provided with a rolling wheel (301) on its outside, and the winding device (8) is provided with a winding roller (801) on its outside.
4. The aluminum laminate shield foil slitter as claimed in claim 1, characterized by: The cutting rod (4) includes a first cutting rod (4A) and a second cutting rod (4B). A cutting strip (401) is provided on the outside of the cutting rod (4). A rotating block (402) is provided after the cutting rod (4) passes through the transmission plate (2). The rotating block (402) between the first cutting rod (4A) and the second cutting rod (4B) is engaged and connected.
5. The aluminum laminate shield foil slitter as claimed in claim 4, characterized by: The support frame (1) is provided with a contact base plate (601) inside. The contact base plate (601) is connected to the drive motor (6). A drive chain (701) is provided between the output end of the drive motor (6) and the rotating block (402). The drive chain (701) is located inside the transmission box (7).
6. The aluminum laminate shield foil slitter as defined in claim 3, wherein: An adjusting wheel (302) is provided between the cutting rod (4) and the contact plate (3), and the adjusting wheel (302) is connected to the rolling wheel (301).
7. The aluminum laminate shield foil slitter as defined in claim 6, characterized in that: The transmission box (10) has a moving hole (1001) on its outside. The adjusting block (11) passes through the moving hole (1001). After the adjusting block (11) passes through the transmission box (10), a fixing screw (1101) is provided. A positioning wheel (1102) is provided at the bottom of the adjusting block (11).