A waste cable recycling device
By designing a waste cable recycling device with a rotating wheel, cutter, and screw adjustment mechanism, the problem of low efficiency in traditional recycling methods has been solved. This device achieves efficient and continuous cutting and stripping of cable sheaths, adapts to different cable specifications, and improves recycling efficiency and versatility.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGXI RAOGUANG WIRE & CABLE CO LTD
- Filing Date
- 2025-08-05
- Publication Date
- 2026-06-30
Smart Images

Figure CN224437286U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of waste cable recycling technology, and in particular to a waste cable recycling device. Background Technology
[0002] In the development of the waste cable recycling industry, traditional processing methods have long dominated, but their inherent defects have become increasingly apparent, severely restricting the industry's efficient development. Traditional practices mainly encompass two modes: manual operation and preliminary processing using semi-automatic equipment.
[0003] When manually processing waste cables, the main method relies on manual labor using simple tools such as knives to cut and peel off the cable sheath. This purely manual operation is extremely inefficient. Recycling personnel must process the cable section by section, and each cutting and peeling action consumes a significant amount of time and effort. Faced with large-scale waste cable recycling tasks, this slow processing speed is far from meeting industry demands.
[0004] While semi-automatic equipment improves processing efficiency to some extent, it still has insurmountable problems. These devices are typically designed for specific cable specifications and types, making parameter adjustments extremely complex and time-consuming when dealing with cables of varying diameters and types. For example, when processing cables with significant diameter variations, multiple parameters, such as the cutting blade position and the spacing of the stripping components, need to be recalibrated and set. This process not only requires a significant amount of time from skilled technicians but also keeps the equipment idle during adjustments, further reducing overall efficiency. Utility Model Content
[0005] To overcome the aforementioned drawbacks, this utility model provides a waste cable recycling device.
[0006] The technical solution of this utility model is as follows: a waste cable recycling device, including a base frame, a support frame, a second screw, a sliding block, a motor, a rotating wheel, a cutter, and a stripping assembly. The support frame is connected to the middle of the top of the base frame. The rotating wheel is installed on both the upper and lower sides of the support frame through a movable connection. The second screw is symmetrically rotatably connected to the front side of the support frame. The second screw is threadedly connected to the sliding block, and the motor is installed on the sliding block. The motor is tightly fitted to the front side of the support frame. The output shaft of the motor is connected to the corresponding rotating wheel. The middle part of the rotating wheel is connected to the cutter. The stripping assembly is provided on the left side of the top of the base frame.
[0007] As a further preferred option, the outer surface of the rotating wheel is provided with multiple anti-slip strips.
[0008] As a further preferred embodiment, the peeling assembly includes a discharge frame, a second roller, a third screw, a movable frame, and peeling components. The discharge frame is connected to the top left side of the base frame. Multiple second rollers are rotatably connected to the discharge frame at intervals at positions parallel to its top surface. The third screw is symmetrically rotatably connected to the left side of the discharge frame. Movable frames that slide on the discharge frame are threaded onto the third screw. Peeling components located above the second rollers are connected to the upper ends of the movable frames.
[0009] As a further preferred option, the right end of the peeling part has a sharp bevel structure.
[0010] As a further preferred embodiment, it also includes a feed frame and first rollers. The feed frame is connected to the top right side of the base frame, and multiple first rollers are rotatably connected to the feed frame at positions parallel to its top surface.
[0011] As a further preferred embodiment, it also includes a first screw, a sliding frame, and a guide frame. The first screw is symmetrically and rotatably connected to the right side of the feed frame. The first screw is threaded with a sliding frame that slides on the feed frame, and the upper end of the sliding frame is connected to a guide frame.
[0012] This utility model has the following advantages: 1. The rotating wheel uses the friction between the anti-slip strip on the outer surface and the cable to stably push the cable, while the cutter precisely cuts the cable sheath to ensure efficient cutting. The cut cable then enters the stripping area, where the sharp bevel of the stripping piece quickly peels off the sheath. The entire process from cutting to stripping is seamlessly connected, which improves the efficiency and continuity of waste cable recycling, reduces waiting time between processes, and improves the smoothness of operation.
[0013] 3. The distance between the two rotating wheels and the cutter can be easily adjusted by rotating the second screw to accommodate cables of different diameters; rotating the third screw can flexibly change the distance between the two stripping parts to meet the requirements of different wire core sizes; rotating the first screw can precisely adjust the distance between the two guide frames to guide cables of different specifications into the device. This comprehensive and flexible adjustment mechanism makes the device widely applicable to various types of waste cable recycling work, greatly enhancing the device's versatility and practicality. Attached Figure Description
[0014] Figure 1 This is a three-dimensional structural diagram of the present invention.
[0015] Figure 2 This is a three-dimensional structural diagram of the feed frame, first roller, and first screw of this utility model.
[0016] Figure 3 This is a three-dimensional structural diagram of the support frame, second screw, and sliding block of this utility model.
[0017] Figure 4This is a three-dimensional structural diagram of the components of this utility model, including the discharge frame, the second roller, and the third screw.
[0018] The components are: 1-base frame, 2-feed frame, 3-first roller, 4-first screw, 5-sliding frame, 6-guide frame, 7-support frame, 8-second screw, 9-sliding block, 10-motor, 11-rotating wheel, 12-cutter, 13-discharge frame, 14-second roller, 15-third screw, 16-movable frame, 17-peeling component. Detailed Implementation
[0019] The present invention will be further described below with reference to specific embodiments. It should also be noted that, unless otherwise explicitly specified and limited, terms such as "setting," "installing," "connecting," and "linking" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in the present invention based on the specific circumstances.
[0020] Example: A waste cable recycling device, such as Figure 1 , Figure 3 and Figure 4 As shown, the assembly includes a base frame 1, a support frame 7, a second screw 8, sliding blocks 9, a motor 10, rotating wheels 11, a cutter 12, and a peeling assembly. The support frame 7 is bolted to the top center of the base frame 1. Rotating wheels 11 are movably connected to both the upper and lower sides of the support frame 7. The second screw 8 is symmetrically rotatably connected to the front side of the support frame 7. Sliding blocks 9 are threaded onto the second screw 8, and motors 10 are bolted onto the sliding blocks 9. The motors 10 are tightly fitted to the front side of the support frame 7 and are limited by the support frame 7. The device is constrained and can only move in the vertical direction. The output shaft of the motor 10 is connected to the corresponding rotating wheel 11 to provide power for the rotation of the rotating wheel 11. The rotating wheel 11 is connected to a cutter 12 in the middle. The cutter 12 is used to cut the cable sheath. The outer surface of the rotating wheel 11 is provided with multiple anti-slip strips. The presence of the anti-slip strips can significantly increase the friction between the rotating wheel 11 and the cable, thereby effectively applying a pushing force to the cable and ensuring that the cable can be smoothly transported in the device. A stripping assembly is provided on the top left side of the base frame 1.
[0021] like Figure 1 and Figure 4As shown, the stripping assembly includes a discharge frame 13, a second roller 14, a third screw 15, a movable frame 16, and stripping components 17. The discharge frame 13 is bolted to the top left side of the base frame 1. Multiple second rollers 14 are rotatably connected to the discharge frame 13 at intervals parallel to its top surface. The second rollers 14 can rotate with the cable during movement, thus assisting the cable movement. The third screw 15 is symmetrically rotatably connected to the left side of the discharge frame 13. Movable frames 16 that slide on the discharge frame 13 are threaded onto the third screw 15. Stripping components 17 located above the second rollers 14 are connected to the upper ends of the movable frames 16. The right end of the stripping component 17 has a sharp bevel structure, which is beneficial for stripping the cable sheath.
[0022] When recycling waste cables, the distance between the two rotating wheels 11 must be precisely adjusted according to the cable's diameter, while ensuring that the cutter 12 accurately separates the cable sheath. The specific adjustment procedure is as follows: By rotating the two second screws 8 in either the forward or reverse direction, the two sliding blocks 9, positioned vertically, move closer or further apart due to the threaded transmission principle. During this process, the motor 10, rotating wheels 11, and cutter 12 mounted on the sliding blocks 9 move synchronously, thereby achieving precise adjustment of the distance between the two rotating wheels 11. After adjusting the distance between the rotating wheels 11, the distance between the two stripping parts 17 needs to be adjusted according to the size of the cable's internal core. The specific operation is as follows: Rotating the third screw 15 in either the forward or reverse direction, based on the principle of threaded transmission, causes the movable frame 16 and the stripping component 17 to move closer or further apart, thereby achieving precise adjustment of the distance between the two stripping components 17. After completing the preparation work, the motor 10 is started, and the output shaft of the motor 10 begins to rotate, which in turn drives the connected rotating wheel 11 and cutter 12 to rotate synchronously. At this time, the operator feeds the cable between the two rotating wheels 11. During the rotation of the rotating wheel 11 and the cutter 12, the cutter 12 cuts the upper and lower outer sheaths of the cable, slicing them open. Simultaneously, the rotating wheel 11 relies on the anti-slip strips on its outer surface... The friction between the cable and the wire exerts a force to the left, thus pushing the cable to move to the left. The cut cable continues to move to the left onto the discharge frame 13. At this time, the second roller 14 on the discharge frame 13 will rotate accordingly, further assisting the movement of the cable. During this process, the stripping component 17 contacts the outer sheath of the cable. As the cable continues to move to the left, its cut outer sheath will be peeled off by the stripping component 17, ultimately achieving effective separation of the wire core and the outer sheath. Throughout the entire operation, the cable continues to move slowly to the left, which can sequentially complete a series of operations such as cutting and peeling the outer sheath, achieving efficient recycling of waste cables.
[0023] like Figure 2As shown, it also includes a feeding frame 2, a first roller 3, a first screw 4, a sliding frame 5, and a guide frame 6. The feeding frame 2 is bolted to the top right side of the base frame 1. Multiple first rollers 3 are rotatably connected at intervals on the feeding frame 2 at positions parallel to its top surface. These first rollers 3 can rotate due to friction with the cable when the cable moves, thereby assisting the cable to move smoothly. The first screw 4 is symmetrically rotatably connected to the right side of the feeding frame 2. The first screw 4 is threaded to the sliding frame 5, which slides on the feeding frame 2. The upper end of the sliding frame 5 is bolted to the guide frame 6. The right ends of the two guide frames 6 form an outward octagonal inclined structure.
[0024] In the initial stage of recycling waste cables, the distance between the two guide frames 6 needs to be adjusted according to the cable diameter. The specific adjustment method is as follows: by rotating the first screw 4 in either the forward or reverse direction, the two sliding frames 5 are moved closer or further apart using the threaded transmission principle. The guide frames 6 connected to them also move synchronously, thus achieving precise adjustment of the distance between the two guide frames 6. After adjusting the distance between the guide frames 6, the cable is pushed to the left between the two guide frames 6. During this process, due to the friction between the cable and the first roller 3, the first roller 3 rotates accordingly, further assisting the movement of the cable. The sloping structure design of the right end of the guide frame 6 effectively guides the cable quickly and accurately into the area between the two guide frames 6. Subsequently, the cable smoothly passes through the two rotating wheels 11 and the cutter 12 for subsequent outer sheath cutting and other operations. The guide frame 6 ensures the accuracy of the cable's position before entering the cutting area, allowing the cable to be smoothly and accurately fed into the cutting area, laying a good foundation for subsequent efficient and accurate cutting and recycling.
[0025] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the principle of the present utility model, and these improvements and modifications should also be considered within the protection scope of the present utility model.
Claims
1. A waste cable recycling device, characterized in that, The device includes a base frame (1), a support frame (7), a second screw (8), a sliding block (9), a motor (10), a rotating wheel (11), a cutter (12), and a peeling assembly. The support frame (7) is connected to the top center of the base frame (1). The rotating wheel (11) is installed on both the upper and lower sides of the support frame (7) through a movable connection. The second screw (8) is symmetrically connected to the front side of the support frame (7). The sliding block (9) is threaded onto the second screw (8). The motor (10) is installed on the sliding block (9). The motor (10) is tightly fitted to the front side of the support frame (7). The output shaft of the motor (10) is connected to the corresponding rotating wheel (11). The cutter (12) is connected to the middle part of the rotating wheel (11). The peeling assembly is provided on the top left side of the base frame (1).
2. A device for recycling waste cables as claimed in claim 1, characterized in that, Multiple anti-slip strips are provided on the outer surface of the rotating wheel (11).
3. A device for recycling waste cables as claimed in claim 2, characterized in that, The peeling assembly includes a discharge frame (13), a second roller (14), a third screw (15), a movable frame (16), and peeling parts (17). The discharge frame (13) is connected to the top left side of the base frame (1). Multiple second rollers (14) are rotatably connected to the discharge frame (13) at positions parallel to its top surface. The third screw (15) is symmetrically rotatably connected to the left side of the discharge frame (13). The movable frame (16) that slides on the discharge frame (13) is threaded onto the third screw (15). The peeling parts (17) located above the second rollers (14) are connected to the upper end of the movable frame (16).
4. A device for recycling waste cables as claimed in claim 3, characterized in that, The right end of the peeled piece (17) has a sharp bevel structure.
5. A device for recycling waste cables as claimed in claim 4, characterized in that, It also includes a feed frame (2) and a first roller (3). The feed frame (2) is connected to the top right side of the base frame (1). Multiple first rollers (3) are rotatably connected to the feed frame (2) at positions parallel to its top surface.
6. A device for recycling waste cables as claimed in claim 5, characterized in that, It also includes a first screw (4), a sliding frame (5) and a guide frame (6). The first screw (4) is symmetrically and rotatably connected to the right side of the feed frame (2). The first screw (4) is threadedly connected to the sliding frame (5) that slides on the feed frame (2). The upper end of the sliding frame (5) is connected to the guide frame (6).