A cable winding device
By installing a reel drive mechanism and a reel ejection device underground, the problem of supporting and removing thicker reels on winding equipment is solved, achieving stable reel winding and convenient operation, and reducing labor intensity and safety risks.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JINTONGDA CABLE CO LTD
- Filing Date
- 2025-05-07
- Publication Date
- 2026-07-03
AI Technical Summary
During cable winding, thicker reels are heavy and bulky, making them difficult to support on winding equipment and remove after winding, resulting in inconvenience and safety risks.
Design a cable winding device, which sets the reel drive mechanism in a box below ground, uses first and second electric rollers to support the reel, and realizes automated loading and unloading of the reel through a drum ejection device, and combines a centering mechanism to ensure the stability of the reel during the winding process.
It reduces the difficulty of loading and unloading the reel, improves the convenience and safety of operation, ensures the stability of the reel during the winding process, and avoids safety accidents caused by shaking or falling.
Smart Images

Figure CN224449802U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cable production technology, specifically to a cable winding device. Background Technology
[0002] In the manufacturing process of cables and conduits, the finished cables need to be wound up, with each layer neatly and tightly wound onto a winding reel for easy packaging. In practice, the reel must be mounted on the winding equipment, and the wound cable is removed after winding. When winding thicker cables, the heavy and bulky reel is inconvenient to support on the winding equipment and difficult to remove after winding, resulting in inconvenience in the process. Utility Model Content
[0003] The purpose of this invention is to provide a cable winding device to solve the aforementioned problems existing in the current cable winding process.
[0004] To achieve the above objectives, the present invention adopts the following technical solution:
[0005] A cable winding device includes a housing disposed below ground level and a reel drive mechanism. The reel drive mechanism is disposed within the housing and includes a first electric roller and a second electric roller. The first electric roller and the second electric roller are spaced apart within the housing, and the tops of both the first electric roller and the second electric roller are flush with the ground. The first electric roller and the second electric roller are used to support the reel and drive the reel to rotate. A reel ejection device is provided on the housing. After the reel has finished winding the cable, the reel is driven to disengage from the first electric roller and the second electric roller.
[0006] Furthermore, both the first electric roller and the second electric roller have an anti-slip layer on their outer walls.
[0007] Furthermore, a cover plate is provided on the top of the box, and a first clearance groove is provided on the cover plate, in which the first electric roller and the second electric roller are located.
[0008] Furthermore, both sides of the housing are provided with centering mechanisms for centering the drum.
[0009] Furthermore, the centering mechanism includes a support vertical plate, a first cylinder, and a first rotating disk. The support vertical plate is disposed on the side of the housing, the first cylinder is disposed on the upper part of the support vertical plate, and the first rotating disk is mounted on the end of the output shaft of the first cylinder. The first cylinder is used to drive the first rotating disk to abut against the drum and rotate synchronously with the drum.
[0010] Furthermore, the drum ejection device includes an ejection rod and a second cylinder. The second cylinder is disposed in the housing and on one side of the second electric drum. The ejection rod is disposed along the axial direction of the second electric drum and is connected to the second cylinder. The second cylinder is used to drive the ejection rod to rise and fall and abut against the drum, so as to drive the drum to disengage from the first electric drum and the second electric drum.
[0011] Furthermore, a guide cylinder is provided in the box body, and a guide post is provided on the ejector rod, with the guide post sleeved in the guide cylinder.
[0012] Furthermore, the cover plate is provided with a second clearance groove, and the ejector rod is located in the second clearance groove.
[0013] The beneficial effects of this utility model are:
[0014] This utility model discloses a cable winding device in which the reel drive mechanism is housed in a box below ground level, with the top of the electric roller flush with the ground. When installing the reel, it can be placed directly and stably on the electric roller without the need for strenuous lifting. After winding is complete, the reel is ejected by a drum ejection device, allowing operators to easily remove it from the ground. This significantly reduces the difficulty of loading and unloading the reel and the labor intensity of the operators, greatly improving operational convenience.
[0015] Furthermore, the first and second electric rollers provide stable support, and the centering mechanism ensures accurate positioning of the reel during winding, preventing deviation and maintaining stability throughout the winding process. This effectively reduces the risk of safety accidents caused by reel shaking or falling, ensuring the safety of the production process and the stability of the equipment. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the cable winding device of this utility model;
[0017] Figure 2 yes Figure 1 A structural diagram from another angle;
[0018] Figure 3 This is a schematic diagram of the cable winding device of this utility model after the cover plate has been removed.
[0019] The names corresponding to each mark in the diagram:
[0020] 1. Box body, 2. Cover plate, 3. First clearance groove, 4. Second clearance groove, 5. First electric roller, 6. Second electric roller, 7. Reel, 8. Anti-slip layer, 9. Supporting vertical plate, 10. First cylinder, 11. First rotating plate, 12. Ejector rod, 13. Second cylinder, 14. Guide cylinder, 15. Guide column. Detailed Implementation
[0021] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.
[0022] like Figures 1 to 3 As shown, this cable winding device mainly includes a housing 1 installed below ground, a reel drive mechanism, and a reel ejection device.
[0023] The housing 1 is embedded below the ground, and a cover plate 2 is provided on its top. The cover plate 2 is provided with a first clearance groove 3 and a second clearance groove 4. The first clearance groove 3 is used to accommodate part of the structure of the reel drive mechanism, and the second clearance groove 4 is used to accommodate part of the structure of the drum ejection device, so that the reel drive mechanism and the drum ejection device can work normally.
[0024] Figure 2 and Figure 3 As shown, the reel drive mechanism is housed in the housing 1, including a first electric roller 5 and a second electric roller 6. The first electric roller 5 and the second electric roller 6 are spaced apart within the housing 1, and their tops are both flush with the ground. This arrangement allows the reel 7 to be placed stably on the first electric roller 5 and the second electric roller 6. The outer walls of both the first electric roller 5 and the second electric roller 6 are provided with an anti-slip layer 8, which can be made of rubber or other materials. Its function is to increase the friction between the first electric roller 5 and the second electric roller 6 and the reel 7, ensuring that the first electric roller 5 and the second electric roller 6 can stably drive the reel 7 to rotate during the winding process, preventing the reel 7 from slipping.
[0025] During the winding process, the reel 7 is placed on the first electric roller 5 and the second electric roller 6. The first electric roller 5 and the second electric roller 6 are started, and their rotation drives the reel 7 to rotate synchronously, thereby winding the cable onto the reel 7.
[0026] To ensure that the reel 7 is in the correct position during the winding process, centering mechanisms for centering the reel 7 are provided on both sides of the housing 1. Figure 2As shown, the centering mechanism includes a support vertical plate 9, a first cylinder 10, and a first rotating disk 11. The support vertical plate 9 is located on the side of the housing 1, providing stable support for the centering mechanism. The first cylinder 10 is located on the upper part of the support vertical plate 9, and the first rotating disk 11 is installed at the end of the output shaft of the first cylinder 10. When the reel 7 is placed on the first electric roller 5 and the second electric roller 6, the first cylinder 10 is activated, driving the first rotating disk 11 to move towards the reel 7 until the first rotating disk 11 abuts against the reel 7. During the winding process, the first rotating disk 11 rotates synchronously with the reel 7, playing a centering role, preventing the reel 7 from shifting during rotation, and ensuring the neatness of the cable winding.
[0027] After the reel 7 finishes winding the cable, it is pushed off the first electric roller 5 and the second electric roller 6 by the drum ejection device. Figure 3 As shown, the reel ejection device includes an ejection rod 12 and a second cylinder 13. The second cylinder 13 is disposed in the housing 1 and located on one side of the second electric roller 6. The ejection rod 12 is arranged along the axial direction of the second electric roller 6 and is connected to the second cylinder 13. To ensure the stability of the ejection rod 12 during the lifting process, a guide cylinder 14 is provided in the housing 1, and a guide post 15 is provided on the ejection rod 12, which is sleeved in the guide cylinder 14. When it is necessary to eject the reel 7, the second cylinder 13 is activated, and the second cylinder 13 drives the ejection rod 12 to rise along the direction of the guide cylinder 14. After passing through the second clearance groove 4 on the cover plate 2, the ejection rod 12 abuts against the reel 7. As the ejection rod 12 continues to rise, it ejects the reel 7 from the first electric roller 5 and the second electric roller 6, thereby facilitating the operator to remove the completed cable reel 7.
[0028] This cable winding device solves the problem that the reel 7 is heavy and bulky when winding thicker cables, making it inconvenient to support on the winding equipment and remove after winding, by setting the reel drive mechanism in the housing 1 below the ground, and the tops of the first electric roller 5 and the second electric roller 6 are flush with the ground. This improves the convenience and efficiency of the cable winding process.
[0029] Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model are within the protection scope of this utility model.
Claims
1. A cable winding device, characterized by: The device includes a housing located below ground level and a reel drive mechanism. The reel drive mechanism is housed within the housing and includes a first electric roller and a second electric roller, which are spaced apart within the housing. The tops of both the first and second electric rollers are flush with the ground. The first and second electric rollers support the reel and drive its rotation. A reel ejection device is provided on the housing to drive the reel away from the first and second electric rollers after the reel has finished winding the cable. Centering mechanisms for centering the reel are provided on both sides of the housing. Each centering mechanism includes a support plate, a first cylinder, and a first rotating disc. The support plate is located on the side of the housing, the first cylinder is located on the upper part of the support plate, and the first rotating disc is mounted on... The first cylinder has an output shaft at its end, which drives the first rotating disk to abut against the drum and rotate synchronously with the drum. The drum ejection device includes an ejection rod and a second cylinder. The second cylinder is located in the housing and on one side of the second electric drum. The ejection rod is arranged along the axial direction of the second electric drum and connected to the second cylinder. The second cylinder drives the ejection rod to rise and fall and abut against the drum, thereby driving the drum to disengage from the first and second electric drums. A guide cylinder is provided in the housing, and a guide post is provided on the ejection rod, which is sleeved in the guide cylinder. A cover plate is provided on the top of the housing, and a first clearance groove is provided on the cover plate, in which the first and second electric drums are located. A second clearance groove is provided on the cover plate, in which the ejection rod is located.
2. The cable take-up device of claim 1, wherein: Both the first electric roller and the second electric roller have anti-slip layers on their outer walls.