Fiber optic pass-through device

By designing a fiber optic zero-passing device that works in collaboration with multiple components, the problem of low automation in existing equipment has been solved, achieving fully automated operation and improving work efficiency.

CN224333834UActive Publication Date: 2026-06-09深圳市美思晟科技有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
深圳市美思晟科技有限公司
Filing Date
2025-01-06
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing fiber optic zero-passing equipment has a low degree of automation and low work efficiency.

Method used

A fiber optic zero-passing device was designed, which includes multiple threading components and tape bonding components. Through the coordinated action of components such as the machine base, circular vibrator, linear vibrator, bracket, and threading Z-axis, the entire process is automated.

Benefits of technology

It achieves full automation of fiber optic cable passing through zero, eliminating the need for manual operation and improving work efficiency.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224333834U_ABST
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Abstract

The utility model relates to optical fiber zero equipment technical field, concretely is optical fiber zero equipment, including the machine platform, the top of machine platform is provided with a plurality of round vibration, the top of machine platform is provided with straight vibration, the top of machine platform is provided with a plurality of support, the top of machine platform is provided with a plurality of threading Z axle, a plurality of support and read a threading Z axle between from front to back are sequentially provided with first threading assembly, second threading assembly, third threading assembly, fourth threading assembly, the top rear side of machine platform is provided with base, the top of base is provided with adhesive tape pasting subassembly. The utility model under the joint action of first threading assembly, second threading assembly, third threading assembly, fourth threading assembly, adhesive tape pasting and taking line subassembly, can realize the purpose that optical fiber is zero, full -automatic operation is not needed manual zero, has solved the low degree of automation of prior art's optical fiber zero part equipment in the actual use process, and the problem of low work efficiency.
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Description

Technical Field

[0001] This utility model relates to the technical field of fiber optic zero-passing devices, specifically fiber optic zero-passing devices. Background Technology

[0002] Existing fiber optic component insertion equipment has a low degree of automation and low work efficiency in actual use. To address this problem, a fiber optic component insertion device is provided. Utility Model Content

[0003] The purpose of this utility model is to provide an optical fiber zero-passing device to solve the problems mentioned in the background art. To achieve the above objective, this utility model provides the following technical solution: An optical fiber zero-passing device is provided, including a machine base. The top of the machine base is provided with several circular vibrators, a linear vibrator, multiple supports, and multiple threading Z-axis. A first threading assembly, a second threading assembly, a third threading assembly, and a fourth threading assembly are arranged sequentially from front to back among the supports and the threading Z-axis. A base is provided at the rear of the top of the machine base, and an adhesive tape attaching assembly is provided at the top of the base. A wire take-up assembly is provided at the rear of the top of the machine base, and the wire take-up assembly includes a wire release machine.

[0004] Preferably, the first threading assembly includes a first clamping telescopic mechanism, a first clamping clamp, a first clamping rotation mechanism, a first wire clamping avoidance mechanism, a first half-clamping mechanism, a first threading clamp, a first threading clamp telescopic mechanism, a first wire clamp, a first pressing mechanism, and a first stopping mechanism. The first clamping telescopic mechanism is mounted on a support, the first clamping clamp is mounted on a support, the first clamping clamp is rotated on a support, the first wire clamping avoidance mechanism is mounted on a support, the first half-clamping mechanism is mounted on a support, the first wire clamp is mounted on a support, the first threading clamp is mounted on the threading Z-axis, the first wire clamp is mounted on the threading Z-axis, the first pressing mechanism is mounted at the top of the support, and the first stopping mechanism is mounted to the right of the first pressing mechanism.

[0005] Preferred embodiment: The second threading assembly includes a material guide rotation mechanism, a second material clamp extension mechanism, a second material clamp, a first main clamping wire, a second half clamping wire, a material clamp lifting mechanism, a second guide wire clamp, a second guide wire clamp retraction mechanism, a chain fixture, and a second threading clamp. The material guide rotation mechanism is mounted on a support frame. The second material clamp extension mechanism is mounted at the top of the support frame. The second material clamp is mounted at the right end of the support frame. The first main clamping wire is mounted at the right end of the support frame. The second half clamping wire is mounted at the bottom end of the second main clamping wire. The material clamp lifting mechanism is mounted on the support frame. The second guide wire clamp is mounted at the right end of the support frame. The second guide wire clamp retraction mechanism is mounted on the right side of the support frame. The second threading clamp and the second threading clamp extension mechanism are mounted on the left side of the threading Z-axis. The chain fixture is mounted on the left side of the threading Z-axis. The second threading clamp is mounted on the left side of the threading Z-axis.

[0006] Preferred embodiment: The third threading assembly includes a third clamping telescopic mechanism, a third clamp, a second clamping rotation mechanism, a second main clamping wire, a third semi-clamping wire, a third guide wire clamp, a third guide wire clamp avoidance mechanism, a third threading clamp, and a third threading clamp telescopic mechanism. The third clamping telescopic mechanism is located at the front end of the bracket, the third clamp is located on the right side of the bracket, the second main clamping wire is located on the right side of the bracket, the third semi-clamping wire is located on the right side of the bracket, the third guide wire clamp is located on the right side of the bracket, the third guide wire clamp avoidance mechanism is located on the right side of the bracket, the third threading clamp and the third threading clamp telescopic mechanism are located on the left side of the threading Z-axis, and the third threading clamp is located on the left side of the threading Z-axis.

[0007] Preferred embodiment: The fourth threading assembly includes a fourth clamping telescopic mechanism, a fourth clamping clamp, a second pressing mechanism, a second stopping mechanism, a third clamping rotation mechanism, a third main clamping wire, a third semi-clamping wire, a fourth guide wire clamp, a fourth guide wire clamp avoidance mechanism, a fourth threading clamp telescopic mechanism, and a fourth threading clamp. The fourth clamping telescopic mechanism is located at the front end of the support, the fourth clamping clamp is located on the right side of the support, the second pressing mechanism is located at the top end of the support, the second stopping mechanism is located to the right of the second pressing mechanism, the third clamping rotation mechanism is located on the right side of the support, the third main clamping wire is located on the right side of the support, the third semi-clamping wire is located on the right side of the support, the fourth guide wire clamp is located on the right side of the support, the fourth guide wire clamp avoidance mechanism is located on the right side of the support, the fourth threading clamp and the fourth threading clamp telescopic mechanism are located on the left side of the threading Z-axis, and the fourth threading clamp is located on the left side of the threading Z-axis.

[0008] Preferred embodiment: The tape application assembly includes a tape feeding shaft, a tape pulling cylinder, a tape clamping cylinder, a tape pressing cylinder, a cutting cylinder, a thread straightening cylinder, a clamp release cylinder, and a thread clamping cylinder. The tape feeding shaft is located at the top of the base, the tape pulling cylinder is located at the front side of the top of the base, the tape pressing cylinder is located at the right side of the top, the cutting cylinder is located at the right side of the top of the base, the thread straightening cylinder is located at the top of the machine, the clamp release cylinder is located to the left of the thread straightening cylinder, and the thread clamping cylinder is located to the left of the clamp release cylinder.

[0009] Preferred solution: The front end of the linear vibrator is provided with a wire-taking X-axis, the inner cavity of the wire-taking X-axis is provided with a winding telescopic mechanism, the top end of the winding telescopic mechanism is provided with a winding lifting mechanism, the top end of the winding lifting mechanism is provided with a wire-taking opening clamp, and the bottom end of the wire-taking opening clamp is provided with a wire-taking clamp.

[0010] Compared with the prior art, the beneficial effects of this utility model are as follows:

[0011] In this case, the fiber optic cable can be successfully threaded through the ground using the combined action of the first threading assembly, the second threading assembly, the third threading assembly, the fourth threading assembly, the tape application, and the cable take-up assembly. The entire process is automated and requires no manual threading, thus solving the problem of low automation and low work efficiency in existing fiber optic cable threading equipment during actual use. Attached Figure Description

[0012] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0013] Figure 2 This is a schematic diagram of the structure of the first threading assembly of this utility model;

[0014] Figure 3 This is a schematic diagram of the structure of the second threading assembly of this utility model;

[0015] Figure 4 This is a schematic diagram of the structure of the third threading assembly of this utility model;

[0016] Figure 5 This is a schematic diagram of the structure of the fourth threading assembly of this utility model;

[0017] Figure 6 This is a schematic diagram of the structure of the tape adhesive assembly of this utility model;

[0018] Figure 7 This is a schematic diagram of the wire taking component of this utility model.

[0019] In the diagram: 1. Machine base; 2. Circular vibrator; 3. Linear vibrator; 4. Support; 6. Chain transfer; 7. Wire feeding machine; 8. First clamp telescopic movement; 9. First clamp; 10. First clamp rotation; 11. First guide clamp avoidance; 12. First half clamp; 13. First threading clamp; 14. Threading Z-axis; 15. First threading clamp telescopic movement; 16. First guide clamp; 17. First pressing; 18. First stop positioning; 19. Guide rotation; 20. Second clamp telescopic movement; 21. Second clamp; 22. First main clamp; 23. Second half clamp; 24. Clamp lifting; 25. Second guide clamp; 26. Second guide clamp avoidance; 27. Second threading clamp telescopic movement; 28. Chain fixture; 29. ​​Second threading clamp; 30. Third clamp telescopic movement; 31. Third clamp; 32. Second clamp rotation; 33. 34. Second main clamp, 35. Third half clamp, 36. Third conductor clamp, 37. Third conductor clamp avoidance, 38. Third threading clamp extension, 39. Third clamping clamp extension, 40. Fourth clamp, 41. Second pressing, 42. Second stop positioning, 43. Third clamping clamp rotation, 44. Third main clamp, 46. Fourth conductor clamp, 47. Fourth conductor clamp avoidance, 48. Fourth threading clamp extension, 49. Fourth threading clamp, 50. Tape feeding shaft, 51. Tape pulling cylinder, 52. Tape clamping cylinder, 53. Tape pressing cylinder, 54. Cutting cylinder, 55. Wire straightening cylinder, 56. Clamping cylinder, 57. Wire clamping cylinder, 58. Wire taking X-axis (58), 59. Take-up extension, 60. Take-up lifting, 61. Take-up clamp opening, 62. Take-up clamp, 63. Take-up extension. Detailed Implementation

[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of the present utility model.

[0021] Please see Figures 1 to 7This utility model provides a technical solution: an optical fiber zero-passing device, including a machine base 1. Several circular vibrators 2 and a linear vibrator 3 are arranged at the top of the machine base 1. Multiple supports 4 and multiple threading Z-axis 14 are arranged at the top of the machine base 1. A first threading assembly, a second threading assembly, a third threading assembly, and a fourth threading assembly are arranged sequentially from front to back between the multiple supports 4 and the multiple threading Z-axis 14. A base is arranged at the rear of the top of the machine base 1, and an adhesive tape bonding assembly is arranged at the top of the base. A wire-taking assembly, including a wire-releasing machine 7, is arranged at the rear of the top of the machine base 1. In this invention, the combined action of the first, second, third, and fourth threading assemblies, the adhesive tape bonding assembly, and the wire-taking assembly can achieve the purpose of optical fiber zero-passing. The entire process is automated, eliminating the need for manual zero-passing, thus solving the problems of low automation and low work efficiency in the actual use of existing optical fiber zero-passing devices.

[0022] In this embodiment, the first threading assembly includes a first clamping telescopic 8, a first clamping clamp 9, a first clamping rotation 10, a first wire clamp 16 avoidance 11, a first half-clamping 12, a first threading clamp 13, a first threading clamp 13 telescopic, a first wire clamp 16, a first pressing 17, and a first blocking positioning 18. The first clamping telescopic 8 is mounted on the bracket 4, the first clamping clamp 9 is mounted on the bracket 4, the first clamping clamp 9 is rotated and mounted on the bracket 4, the first wire clamp 16 avoidance 11 is mounted on the bracket 4, the first half-clamping 12 is mounted on the bracket 4, the first wire clamp 16 is mounted on the bracket 4, the first threading clamp 13 is mounted on the threading Z-axis 14, the first wire clamp 16 avoidance 11 is mounted on the bracket 4, the first wire clamp 16 is mounted on the threading Z-axis 14, the first pressing 17 is mounted at the top of the bracket 4, and the first blocking positioning 18 is mounted on the right side of the first pressing 17.

[0023] In this embodiment, the second threading assembly includes a guide rotation 19, a second clamping extension 20, a second clamp 21, a first main clamping line 22, a second half clamping line 23, a clamp lifting 24, a second guide clamp 25, a second guide clamp 25 clearance, a second threading clamp 29 extension 27, a chain fixture 28, and a second threading clamp 29. The guide rotation 19 is mounted on the support 4, the second clamping extension 20 is mounted at the top of the support 4, the second clamp 21 is mounted at the right end of the support 4, the first main clamping line 22 is mounted at the right end of the support 4, the second half clamping line 23 is mounted at the bottom end of the second main clamping line 33, the clamp lifting 24 is mounted on the support 4, the second guide clamp 25 is mounted at the right end of the support 4, the second guide clamp 25 clearance is mounted on the right side of the support 4, the second threading clamp 29 extension 27 is mounted on the left side of the threading Z-axis 14, the chain fixture 28 is mounted on the left side of the threading Z-axis 14, and the second threading clamp 29 is mounted on the left side of the threading Z-axis 14.

[0024] In this embodiment, the third threading assembly includes a third clamping extension 30, a third clamping clamp 31, a second clamping rotation 32, a second main clamping wire 33, a third half clamping wire 34, a third guide wire clamp 35, a third guide wire clamp clearance 35, a third threading clamp extension 37, and a third threading clamp 38. The third clamping extension 30 is located at the front end of the bracket 4, the third clamping clamp 31 is located on the right side of the bracket 4, the second main clamping wire 33 is located on the right side of the bracket 4, the third half clamping wire 34 is located on the right side of the bracket 4, the third guide wire clamp 35 is located on the right side of the bracket 4, the third guide wire clamp clearance 35 is located on the right side of the bracket 4, the third threading clamp extension 37 is located on the left side of the threading Z-axis 14, and the third threading clamp 38 is located on the left side of the threading Z-axis 14.

[0025] In this embodiment, the fourth threading assembly includes a fourth clamping extension 39, a fourth clamp 40, a second pressing 41, a second blocking positioning 42, a third clamping rotation 43, a third main clamping wire 44, a third half clamping wire 34, a fourth wire clamp 46, a fourth wire clamp 46 clearance, a fourth threading clamp extension 48, and a fourth threading clamp 49. The fourth clamping extension 39 is located at the front end of the bracket 4, the fourth clamp 40 is located on the right side of the bracket 4, the second pressing 41 is located at the top end of the bracket 4, the second blocking positioning 42 is located on the right side of the second pressing 41, the third clamping rotation 43 is located on the right side of the bracket 4, the third main clamping wire 44 is located on the right side of the bracket 4, the third half clamping wire 34 is located on the right side of the bracket 4, the fourth wire clamp 46 is located on the right side of the bracket 4, the fourth wire clamp 46 clearance is located on the right side of the bracket 4, and the fourth threading clamp 49 extension 48 is located on the left side of the threading Z-axis 14, and the fourth threading clamp 49 is located on the left side of the threading Z-axis 14.

[0026] In this embodiment, the tape application assembly includes a tape feeding shaft 50, a tape pulling cylinder 51, a tape clamping cylinder 52, a tape pressing cylinder 53, a cutting cylinder 54, a thread straightening cylinder 55, a clamp release cylinder 56, and a thread clamping cylinder 57. The tape feeding shaft 50 is located at the top of the base, the tape pulling cylinder 51 is located at the front side of the top of the base, the tape pressing cylinder 53 is located at the right side of the top, the cutting cylinder 54 is located at the right side of the top of the base, the thread straightening cylinder 55 is located at the top of the machine base 1, the clamp release cylinder 56 is located to the left of the thread straightening cylinder 55, and the thread clamping cylinder 57 is located to the left of the clamp release cylinder 56.

[0027] In this embodiment, the front end of the linear vibrator 3 is provided with a wire-taking X-axis 58, the inner cavity of the wire-taking X-axis 58 is provided with a winding extension 59, the top end of the winding extension 59 is provided with a winding lift 60, the top end of the winding lift 60 is provided with a wire-taking opening clamp 61, and the bottom end of the wire-taking opening clamp 61 is provided with a wire-taking clamp 62.

[0028] Working principle:

[0029] After the linear vibrator 3 senses the material, the circular vibrator 2 and the linear vibrator 3 stop. The first pressing material 17 extends, the first blocking positioning 18 retracts, the first clamping extension 8 retracts, the first clamping clamp 9 clamps, the first clamping extension 8 extends, and the first clamping rotation 10 becomes horizontal. The workstation waits for the chain line fixture to reach its position. After the fixture reaches its position, the first threading clamp 13 clamps, and the first main clamping wire 22 opens and extends, so that the connecting fixture clamping wire is in a half-open state. The threading Z-axis 14 moves upward. When the first threading clamp 13 approaches the first wire clamp 16 and the optical fiber is half-entered into the part, the first wire clamp 16 opens, the first wire clamp 16 retracts at the avoidance 11, and the threading Z-axis 14 continues to move upward and stops when it approaches the first clamping clamp 9 in a horizontal state. The first clamping clamp 9 opens, the first clamping rotation 10 rotates, and the first clamping clamp 9 becomes vertical. The threading Z-axis 14 moves downward to the set position, the first main clamping wire 22 retracts, so that the fixture clamps the optical fiber, and the first threading clamp 13 opens.

[0030] After the linear vibrator 3 senses the material, both the circular vibrator 2 and the linear vibrator 3 stop. The guide rotation 19 rotates the product vertically. The second clamping extension 20 moves to the rear position, the second clamping clamp 21 rises and retracts, the second clamping clamp 21 clamps, the second clamping clamp 21 rises and extends, the second clamping extension 20 moves to the front position, the second clamping clamp 21 rises and retracts, and the workstation waits for the chain line fixture to arrive in place. After the fixture arrives in place, the second threading clamp 29 clamps, the second main clamping wire 33 opens and extends, the second half clamping wire 23 opens and extends, so that the connecting fixture clamping wire is in the fully open state, and the second threading clamp 29 extends and retracts. 27 extends, causing the part from the previous station to fall below the fixture clamp. Then, the second threading clamp 29 retracts 27, and the second half-clamp 23 opens and retracts, leaving the connecting fixture clamp in a half-open state. The threading Z-axis 14 moves upward. When the second threading clamp 29 approaches the second wire clamp 25, after the fiber optic cable has been half-entered into the part, the second wire clamp 25 opens and retracts to avoid obstruction. The threading Z-axis 14 continues to move upward and stops when it approaches the second material clamp 21, which is in a horizontal state. The second material clamp 21 opens, and the second clamping rotation 32 rotates, making the second material clamp 21 vertical. The threading Z-axis 14 moves downward to the set position, the second main clamp 33 retracts, causing the fixture to clamp the fiber optic cable, and the second threading clamp 29 opens.

[0031] After the linear vibrator 3 senses the material, the circular vibrator 2 and the linear vibrator 3 stop. The third pressing material extends, the third stop retracts, the third clamping material retracts (30mm extension), the third clamping clamp 31 clamps, the third clamping material retracts (30mm extension), and the third clamping material rotates (43mm horizontally). The workstation waits for the chain line fixture to reach its position. After the fixture reaches its position, the third threading clamp 38 clamps, the third main clamping wire 44 opens and extends, and the third half clamping wire 34 opens and extends, so that the connecting fixture clamping wire is in a fully open state. The third threading clamp 38 retracts (37mm extension) and extends, allowing the parts from the previous workstation to... The cable drops below the fixture clamp, then the third wire clamp 38 retracts (37), and the third half-clamp 34 opens and retracts, leaving the connecting fixture clamp in a half-open state. The wire threading Z-axis 14 moves upward. When the third wire clamp 38 approaches the third guide clamp 35, after the fiber optic cable is half-entered into the part, the third guide clamp 35 opens and retracts to avoid obstruction. The wire threading Z-axis 14 continues to move upward and stops when it approaches the horizontal third clamp 31. The third clamp 31 opens, the third clamp rotation 43 rotates, and the third clamp 31 becomes vertical. The wire threading Z-axis 14 descends to the set position, the third main clamp 44 retracts, causing the fixture to clamp the fiber optic cable, and the third wire clamp 38 opens.

[0032] After the linear vibrator 3 senses the material, both the circular vibrator 2 and the linear vibrator 3 stop. The second pressing material 41 extends, the second stopping material positioning 42 retracts, the fourth clamping material extension 39 retracts, the fourth clamping material 40 clamps, the fourth clamping material extension 39 extends, and the fourth clamping material rotates horizontally. The workstation waits for the chain line fixture to arrive in place. After the fixture arrives in place, the fourth threading clamp 49 clamps, the fourth main clamping wire opens and extends, and the fourth half clamping wire opens and extends, so that the connecting fixture clamping wire is in a fully open state. The fourth threading clamp 49 extension 48 extends, bringing the previous workstation to zero. The part falls below the fixture clamp, then the fourth wire clamp 49 retracts (48), and the fourth half-clamp opens and retracts, leaving the connecting fixture clamp in a half-open state. The wire threading Z-axis 14 moves upward. When the fourth wire clamp 49 approaches the fourth guide clamp 46, after the fiber optic cable has passed halfway through the part, the fourth guide clamp 46 opens and retracts to avoid obstruction. The wire threading Z-axis 14 continues to move upward and stops when it approaches the horizontal fourth clamp 40. The fourth clamp 40 opens, rotates, and becomes vertical. The wire threading Z-axis 14 descends to the set position, the fourth main clamp retracts, clamping the fiber optic cable in the fixture, and the fourth wire clamp 49 opens.

[0033] Tape-pulling cylinder 51 extends, tape-clamping cylinder 52 clamps, tape-pressing cylinder 53 retracts, tape-pulling cylinder 51 retracts, tape-feeding shaft 50 reaches position and vacuum-suctions the tape, tape-pressing cylinder 53 extends, cutting cylinder 54 retracts to cut the tape and then extends again. Tape-clamping cylinder 52 opens, waiting for the chain fixture to reach its position. Wire-clamping cylinder 57 clamps, loosening cylinder 56 extends, wire-straightening cylinder 55 extends, loosening cylinder 56 retracts, clamping the fiber optic cable, tape-feeding shaft 50 moves the tape to its position, attaching the tape to the fiber optic cable, and then returns to the waiting position. Wire-clamping cylinder 57 opens, wire-straightening cylinder 55 retracts.

[0034] After the wire take-up X-axis 58 moves to the wire take-up position and waits for the chain fixture to move into place, the wire take-up extension 63 extends, the wire take-up clamp 62 clamps, the wire take-up clamp 61 extends, the wire take-up extension 63 retracts, and the wire take-up clamp 61 retracts. At the same time, the take-up lifting 60 extends, the take-up extension 59 extends, the take-up lifting 60 retracts, and the take-up extension 59 retracts. After completion, the wire take-up X-axis 58 moves to the NG position or the unloading position to unload the material.

[0035] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely preferred examples and are not intended to limit the utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claimed utility model. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A fiber optic zero-passing device, comprising a machine base (1), characterized in that: The top of the machine (1) is provided with several circular vibrators (2), the top of the machine (1) is provided with a linear vibrator (3), the top of the machine (1) is provided with multiple supports (4), the top of the machine (1) is provided with multiple threading Z-axis (14), and the multiple supports (4) and the multiple threading Z-axis (14) are arranged in sequence from front to back with a first threading assembly, a second threading assembly, a third threading assembly, and a fourth threading assembly. The rear side of the top of the machine (1) is provided with a base, the top of the base is provided with an adhesive tape pasting assembly, and the rear side of the top of the machine (1) is provided with a wire taking assembly, which includes a wire feeding machine (7).

2. The fiber optic zero-passing device according to claim 1, characterized in that: The first threading assembly includes a first clamping telescopic (8), a first clamp (9), a first clamping rotation (10), a first wire clamp avoidance (11), a first half-clamp (12), a first threading clamp (13), a first threading clamp telescopic (15), a first wire clamp (16), a first pressing material (17), and a first blocking positioning (18). The first clamping telescopic (8) is mounted on the bracket (4), the first clamp (9) is mounted on the bracket (4), the first clamp (9) is rotated and mounted on the bracket (4), the first wire clamp avoidance (11) is mounted on the bracket (4), the first half-clamp (12) is mounted on the bracket (4), the first wire clamp (16) is mounted on the bracket (4), the first threading clamp (13) is mounted on the threading Z-axis (14), the first wire clamp (16) is mounted on the threading Z-axis (14), the first pressing material (17) is mounted at the top of the bracket (4), and the first blocking positioning (18) is mounted on the right side of the first pressing material (17).

3. The fiber optic zero-passing device according to claim 1, characterized in that: The second threading assembly includes a guide rotation (19), a second clamp extension (20), a second clamp (21), a first main clamp (22), a second half clamp (23), a clamp lifting (24), a second wire clamp (25), a second wire clamp retraction (26), a second threading clamp extension (27), a chain fixture (28), and a second threading clamp (29). The guide rotation (19) is mounted on the bracket (4), the second clamp extension (20) is mounted on the top of the bracket (4), the second clamp (21) is mounted on the right end of the bracket (4), and the first main clamp (22) is mounted on the right end of the bracket (4). 2) The second half clamp (23) is set at the bottom end of the second main clamp (33) and the material clamp lifting (24) is set on the bracket (4). The second wire clamp (25) is set at the right end of the bracket (4). The second wire clamp clearance (26) is set on the right side of the bracket (4). The second wire clamp (29) and the second wire clamp extension (27) are set on the left side of the wire threading Z-axis (14). The chain fixture (28) is set on the left side of the wire threading Z-axis (14). The second wire clamp (29) is set on the left side of the wire threading Z-axis (14).

4. The fiber optic zero-passing device according to claim 1, characterized in that: The third threading assembly includes a third clamp telescopic (30), a third clamp (31), a second clamp rotation (32), a second main clamp (33), a third half clamp (34), a third wire clamp (35), a third wire clamp avoidance (36), a third threading clamp (38), and a third threading clamp telescopic (37). The third clamp telescopic (30) is located at the front end of the bracket (4), the third clamp (31) is located on the right side of the bracket (4), the second main clamp (33) is located on the right side of the bracket (4), the third half clamp (34) is located on the right side of the bracket (4), the third wire clamp (35) is located on the right side of the bracket (4), the third wire clamp (35) avoidance is located on the right side of the bracket (4), the third threading clamp (38) and the third threading clamp telescopic (37) are located on the left side of the threading Z-axis (14), and the third threading clamp (38) is located on the left side of the threading Z-axis (14).

5. The fiber optic zero-passing device according to claim 1, characterized in that: The fourth threading assembly includes a fourth clamping telescopic (39), a fourth clamping (40), a second pressing (41), a second blocking positioning (42), a third clamping rotation (43), a third main clamping wire (44), a third half clamping wire (34), a fourth wire clamp (46), a fourth wire clamp avoidance (47), a fourth threading clamp telescopic (48), and a fourth threading clamp (49). The fourth clamping telescopic (39) is located at the front end of the bracket (4), the fourth clamping (40) is located on the right side of the bracket (4), the second pressing (41) is located at the top of the bracket (4), and the second blocking... Positioning (42) is located on the right side of the second pressing material (41), the third clamping rotation (43) is located on the right side of the bracket (4), the third main clamping line (44) is located on the right side of the bracket (4), the third half clamping line (34) is located on the right side of the bracket (4), the fourth wire clamp (46) is located on the right side of the bracket (4), the fourth wire clamp clearance (47) is located on the right side of the bracket (4), the fourth wire clamp (49) and the fourth wire clamp extension (48) are located on the left side of the wire Z-axis (14), and the fourth wire clamp (49) is located on the left side of the wire Z-axis (14).

6. The fiber optic zero-passing device according to claim 1, characterized in that: The tape application assembly includes a tape feeding shaft (50), a tape pulling cylinder (51), a tape clamping cylinder (52), a tape pressing cylinder (53), a cutting cylinder (54), a thread straightening cylinder (55), a clamp release cylinder (56), and a thread clamping cylinder (57). The tape feeding shaft (50) is located at the top of the base. The tape pulling cylinder (51) is located at the front side of the top of the base. The tape pressing cylinder (53) is located at the right side of the top. The cutting cylinder (54) is located at the right side of the top of the base. The thread straightening cylinder (55) is located at the top of the machine (1). The clamp release cylinder (56) is located to the left of the thread straightening cylinder (55). The thread clamping cylinder (57) is located to the left of the clamp release cylinder (56).

7. The fiber optic zero-passing device according to claim 1, characterized in that: The front end of the linear vibrator (3) is provided with a wire-taking X-axis (58), the inner cavity of the wire-taking X-axis (58) is provided with a winding telescopic (59), the top end of the winding telescopic (59) is provided with a winding lifting (60), the top end of the winding lifting (60) is provided with a wire-taking opening clamp (61), and the bottom end of the wire-taking opening clamp (61) is provided with a wire-taking clamp (62).