Composite membrane waste recycling and crushing device
By introducing a cleaning motor and transmission mechanism into the composite membrane waste recycling and crushing device, the problem of the device being inconvenient to remove impurities was solved, and the effective removal of impurities and crushing of the composite membrane were achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG KAIXIN OPTOELECTRONICS TECH
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-03
AI Technical Summary
Existing composite membrane waste recycling and crushing equipment is not convenient for removing impurities, causing impurities to enter the equipment and affect normal operation.
A composite membrane waste recycling and crushing device was designed, which includes a cleanup motor, a transmission mechanism, and a clamping mechanism. The cleanup motor drives the transmission mechanism, which causes the clamping mechanism to move back and forth to shake off impurities in the composite membrane. The crushing motor drives the crushing roller to crush the membrane.
It effectively removes impurities from the composite membrane, prevents impurities from entering the device, ensures normal operation of the device, and enables the crushing of the composite membrane.
Smart Images

Figure CN224446508U_ABST
Abstract
Description
Technical Field
[0001] The utility model relates to the technical field of composite film crushing devices, specifically a composite film waste recycling and crushing device. Background Technique
[0002] A composite film is a multi-layer film material formed by tightly bonding two or more thin film materials with different properties through a specific process. Common examples include household plastic wrap. During the production of composite films, waste materials are inevitably generated. To facilitate the recycling and utilization of waste composite films, before recycling, it is necessary to first use a composite film waste recycling and crushing device to crush the waste composite films. However, the existing composite film waste recycling and crushing devices have the following problems when in use: Since impurities are easily mixed into the composite film waste, in order to prevent impurities from entering the device and affecting its use, it is necessary to first remove the impurities in the composite film. However, the existing composite film waste recycling and crushing devices are not convenient for removing the impurities in the composite film, which easily leads to impurities entering the interior of the device and affecting the normal use of the device. In view of the above problems, there is an urgent need to innovate and design on the basis of the original composite film waste recycling and crushing device. Content of the Utility Model
[0003] The purpose of the utility model is to provide a composite film waste recycling and crushing device to solve the problem that the existing composite film waste recycling and crushing device is not convenient for removing the impurities in the composite film, which easily leads to impurities entering the interior of the device and affecting the normal use of the device as mentioned in the above background technique.
[0004] To achieve the above purpose, the utility model provides the following technical solution: A composite film waste recycling and crushing device, including a bottom plate. At both ends of the upper surface of the bottom plate, a bracket and a crushing box are respectively fixed. A crushing mechanism is arranged inside the crushing box. At the side of the upper surface of the bracket, a deburring motor is arranged. At the lower end of the output shaft of the deburring motor, a transmission mechanism is installed. The inner wall at the upper end of the bracket is fixedly connected with a support plate. A plate sleeve is sleeved on the outer wall of the support plate. In the middle of the upper surface of the plate sleeve, a transmission column is fixedly connected. At both ends of the lower surface of the plate sleeve, a clamping mechanism is respectively installed.
[0005] Preferably, the crushing mechanism includes a positioning frame. The positioning frame is fixedly arranged on the back of the crushing box. A crushing motor is installed on the outer wall of the positioning frame. The end of the output shaft of the crushing motor is fixedly connected with a main crushing roller. On the inner wall of the crushing box beside the main crushing roller, a secondary crushing roller is installed.
[0006] Preferably, the cross-sectional shape of the positioning frame is set as a "匚" shape. Both the main crushing roller and the secondary crushing roller form a sliding structure with the crushing box. On the outer walls of the ends of the main crushing roller and the secondary crushing roller, a main gear and a secondary gear are respectively fixed. The main gear and the secondary gear are meshed with each other.
[0007] Preferably, the transmission mechanism includes a disc, a drive column, and a drive rod. The disc is fixedly connected to the lower end of the output shaft of the impurity removal motor. The drive column is fixedly installed at the lower surface edge of the disc, and the drive rod is sleeved on the outer wall of the drive column.
[0008] Preferably, the two ends of the drive rod form a rotating structure with the drive column and the transmission column respectively, and the plate sleeve and support plate below the transmission column are slidably arranged.
[0009] Preferably, a collection box is movably installed on the inner wall of the base plate below the clamping mechanism, and the collection box and the base plate are slidably connected.
[0010] Compared with the prior art, the beneficial effects of this utility model are: the composite membrane waste recycling and crushing device facilitates the removal of impurities from the composite membrane, thereby preventing impurities from entering the interior of the device and affecting its normal use;
[0011] The impurity removal motor drives the disc to rotate, which in turn drives the drive column to rotate around the longitudinal center line of the disc. The drive column then drives the drive rod, causing the transmission column to move back and forth. The transmission column then drives the plate sleeve to move back and forth relative to the support plate, causing the plate sleeve to drive the clamping mechanism to move back and forth, thus shaking the composite film. This facilitates the removal of impurities from the composite film, thereby preventing impurities from entering the interior of the device and affecting its normal operation. Attached Figure Description
[0012] Figure 1 This is a schematic diagram of the orthographic section of the present invention;
[0013] Figure 2 This is a top-section structural diagram of the crushing box of this utility model;
[0014] Figure 3 This is a partial top view of the plate sleeve structure of this utility model;
[0015] Figure 4 This is a partial cross-sectional view of the support structure of this utility model.
[0016] In the diagram: 1. Base plate; 2. Support frame; 3. Crushing box; 4. Positioning frame; 5. Crushing motor; 6. Main crushing roller; 7. Auxiliary crushing roller; 8. Main gear; 9. Auxiliary gear; 10. Impurity removal motor; 11. Transmission mechanism; 1101. Disc; 1102. Drive column; 1103. Drive rod; 12. Support plate; 13. Plate sleeve; 14. Transmission column; 15. Clamping mechanism; 16. Collection box. Detailed Implementation
[0017] Next, the technical solutions in the embodiments of the present invention will be clearly and completely described in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, rather than all the embodiments. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present invention without creative efforts shall fall within the protection scope of the present invention.
[0018] Please refer to Figure 1-4 , the present invention provides a technical solution: a composite film waste recycling and crushing device, including a bottom plate 1, a bracket 2, a crushing box 3, a positioning frame 4, a crushing motor 5, a main crushing roller 6, a secondary crushing roller 7, a main gear 8, a secondary gear 9, a impurity removal motor 10, a transmission mechanism 11, a disc 1101, a driving column 1102, a driving rod 1103, a support plate 12, a plate sleeve 13, a transmission column 14, a clamping mechanism 15 and a collection box 16. At both ends of the upper surface of the bottom plate 1, a bracket 2 and a crushing box 3 are respectively fixed. A crushing mechanism is arranged inside the crushing box 3. At the side of the upper surface of the bracket 2, an impurity removal motor 10 is arranged. At the lower end of the output shaft of the impurity removal motor 10, a transmission mechanism 11 is installed. The inner wall of the upper end of the bracket 2 is fixedly connected with a support plate 12. The outer wall of the support plate 12 is sleeved with a plate sleeve 13. In the middle of the upper surface of the plate sleeve 13, a transmission column 14 is fixedly connected. At both ends of the lower surface of the plate sleeve 13, a clamping mechanism 15 is respectively installed.
[0019] The crushing mechanism includes a positioning frame. The positioning frame 4 is fixedly arranged on the back of the crushing box 3. On the outer wall of the positioning frame 4, a crushing motor 5 is installed. At the end of the output shaft of the crushing motor 5, a main crushing roller 6 is fixedly connected. On the inner wall of the crushing box 3 beside the main crushing roller 6, a secondary crushing roller 7 is installed.
[0020] The cross-sectional shape of the positioning frame 4 is set to be in the shape of a "匚". Both the main crushing roller 6 and the secondary crushing roller 7 form a sliding structure with the crushing box 3, which is convenient for the crushing motor 5 to drive the main crushing roller 6 and the secondary crushing roller 7 to rotate stably for crushing materials. On the outer walls of the ends of the main crushing roller 6 and the secondary crushing roller 7, a main gear 8 and a secondary gear 9 are respectively fixed. The main gear 8 and the secondary gear 9 are meshed with each other, which is convenient for when the crushing motor 5 drives the main crushing roller 6 to rotate, the main gear 8 drives the secondary gear 9 to rotate, so that the main crushing roller 6 and the secondary crushing roller 7 rotate in opposite directions simultaneously.
[0021] The transmission mechanism 11 includes a disc 1101, a driving column 1102 and a driving rod 1103. The disc 1101 is fixedly connected to the lower end of the output shaft of the impurity removal motor 10. At the edge of the lower surface of the disc 1101, a driving column 1102 is fixedly installed. The outer wall of the driving column 1102 is sleeved with a driving rod 1103, which is convenient for the impurity removal motor 10 to drive the transmission mechanism 11, so that the clamping mechanism 15 drives the composite film to move back and forth, thereby shaking the composite film for impurity removal of the composite film.
[0022] The two ends of the drive rod 1103 form a rotating structure with the drive column 1102 and the transmission column 14 respectively. The plate sleeve 13 and the support plate 12 below the transmission column 14 are slidably arranged so that when the impurity removal motor 10 drives the disc 1101 to rotate, the disc 1101 drives the drive column 1102, which causes the drive rod 1103 to drive the transmission column 14 to move back and forth, thereby allowing the transmission column 14 to drive the plate sleeve 13 to move back and forth relative to the support plate 12, so that the clamping mechanism 15 moves back and forth.
[0023] A collection box 16 is movably installed on the inner wall of the base plate 1 below the clamping mechanism 15. The collection box 16 and the base plate 1 are slidably connected, making it easy for the user to move the collection box 16 to install or remove it.
[0024] Working principle: When using this composite membrane waste recycling and crushing device, firstly as follows... Figure 1-4 As shown, the user fixes the composite membrane waste using the clamping mechanism 15. Then, the user inserts the collection box 16 into the base plate 1. Next, the user starts the impurity removal motor 10, which drives the disc 1101 to rotate. The disc 1101 then drives the drive column 1102 to rotate around the longitudinal center line of the disc 1101. Next, the drive column 1102 rotates relative to one end of the drive rod 1103, simultaneously moving one end of the drive rod 1103. At the same time, the other end of the drive rod 1103 rotates relative to the transmission column 14, causing the transmission column 14 to move back and forth. Then, the transmission column 14 drives the plate sleeve 13 to move back and forth relative to the support plate 12. Finally, the plate sleeve 13 drives the clamping mechanism 15 to move back and forth, thus processing the composite membrane. The device shakes the composite membrane to remove impurities, which then fall into the collection box 16 for collection. This facilitates the removal of impurities from the composite membrane and prevents them from entering the device and affecting its normal operation. After the impurities are removed, the user turns off the impurity removal motor 10 and removes the composite membrane waste. The user then pours the composite membrane waste into the crushing box 3. Next, the user starts the crushing motor 5, which drives the main crushing roller 6 and the main gear 8 to rotate. Then, the main gear 8 drives the auxiliary gear 9 to rotate, and then the auxiliary gear 9 drives the auxiliary crushing roller 7 to rotate. This causes the main crushing roller 6 and the auxiliary crushing roller 7 to rotate simultaneously in opposite directions within the crushing box 3, thereby crushing the composite membrane waste.
Claims
1. A composite film waste recycling and crushing device, comprising a bottom plate, characterized in that: At both ends of the upper surface of the bottom plate, a bracket and a crushing box are respectively fixed. A crushing mechanism is arranged inside the crushing box. At the side of the upper surface of the bracket, a cleaning motor is arranged. At the lower end of the output shaft of the cleaning motor, a transmission mechanism is installed. At the inner wall of the upper end of the bracket, a support plate is fixedly connected. A plate sleeve is sleeved on the outer wall of the support plate. In the middle of the upper surface of the plate sleeve, a transmission column is fixedly connected. At both ends of the lower surface of the plate sleeve, a clamping mechanism is respectively installed.
2. The composite film waste recycling and crushing apparatus according to claim 1, characterized by: The crushing mechanism includes a positioning frame which is fixedly arranged on the back of the crushing box. A crushing motor is installed on the outer wall of the positioning frame. At the end of the output shaft of the crushing motor, a main crushing roller is fixedly connected. At the inner wall of the crushing box on the side of the main crushing roller, a secondary crushing roller is installed.
3. The composite film waste recycling and crushing device according to claim 2, characterized in that: The shape of the俯截面 of the positioning frame is set as a "匚" shape. Both the main crushing roller and the secondary crushing roller form a sliding structure with the crushing box. At the outer walls of the ends of the main crushing roller and the secondary crushing roller, a main gear and a secondary gear are respectively fixed. The main gear and the secondary gear are meshed with each other.
4. The composite film waste recycling and crushing apparatus according to claim 1, characterized in that: The transmission mechanism includes a disc, a driving column and a driving rod. The disc is fixedly connected to the lower end of the output shaft of the cleaning motor. At the edge of the lower surface of the disc, a driving column is fixedly installed. A driving rod is sleeved on the outer wall of the driving column.
5. The composite film waste recycling and crushing device according to claim 4, characterized in that: Both ends of the driving rod respectively form a rotating structure with the driving column and the transmission column. The plate sleeve and the support plate below the transmission column are slidably arranged.
6. The composite film waste reclaiming and crushing apparatus according to claim 1, wherein: A collection box is movably installed on the inner wall of the bottom plate below the clamping mechanism. The collection box is slidably connected to the bottom plate. It should be noted that there may be an inaccuracy in the term "俯截面" in the original text. It might be a misspelling. If it is supposed to be "cross-section", the translation of the relevant part in will be more accurate as "The cross-sectional shape of the positioning frame is set as a "匚" shape."