Double-wire coaxial tin dipping automatic processing equipment
The automated processing of the dual-line coaxial soldering automatic processing equipment has solved the problem of misjudgment caused by manual visual inspection, improved the soldering quality and efficiency, and achieved efficient coaxial terminal manufacturing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ADVANCED WIRELESS & ANTENNA (KUNSHAN) LTD
- Filing Date
- 2025-04-17
- Publication Date
- 2026-06-05
Smart Images

Figure CN224329045U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to an automatic processing equipment, and more particularly to an automatic tinning equipment for dual-wire coaxial lines. Background Technology
[0002] Coaxial single wires are mainly used in fiber optic connectors for transmitting optical signals. After manufacturing, coaxial single wires are packaged in coils without being cut or having their insulation removed. When wire bonding is required, the single wire in the coil must be cut, the insulation removed, and the internal conductive wire exposed. The conductive wire is then used to fix the coaxial terminal, and the other end is tinned. The stability of the tinned conductive wire must be visually inspected. However, this inspection method relies on manual inspection, which is prone to errors such as operator inattention, lack of experience, or any personal factors affecting the results. This can lead to tinned wires that should be considered good products being mistakenly identified as defective, and vice versa. The most direct impact on product stability after shipment is that because this method is used for coaxial single wires, the overall manufacturing quantity is quite limited, making it impossible to effectively improve the production efficiency of coaxial terminals.
[0003] Therefore, how to improve the solution to the above problems is a topic that relevant technical personnel need to consider and solve. Utility Model Content
[0004] This utility model provides an automatic tinning equipment for dual-wire coaxial bonding, which aims to solve the above-mentioned technical problems.
[0005] This utility model provides an automatic tinning equipment for dual-wire coaxial cables, characterized by: a wire feeder equipped with a dual-wire reel for conveying dual wires; a rotating disk mounted on one side of the wire feeder, with a plurality of wire clamping devices arranged equidistantly around the clamping devices; and, adjacent to the clamping devices around the rotating disk, sequentially arranged a first wire stripper, a second wire stripper, a third wire stripper, a core wire detection device, a flux handling device, a heat drying device, a wire stretching device, a tinning handling device, a tinning cleaning device, a wire push-back device, and a tinning detection device; and a wiring controller mounted between the wire feeder and the rotating disk, controlling the length of each wire conveyed by the wire feeder to each of the clamping devices. The cutting process involves the rotating disc driving the wire clamping devices to move sequentially, with the first wire stripper, the second wire stripper, and the third wire stripper moving to strip the double wires and expose the core wires. The core wire detection device checks whether the stripping is complete. Then, the flux application device applies flux to the core wires, and the heat drying device dries the flux. The wire stretching device stretches the double wires to a length suitable for the soldering device to apply solder to the surface of the core wires where the flux is applied. The soldering surface of the core wires is wiped by the soldering cleaning device. Finally, the wire pushing device pushes the double wires back to a distance suitable for the soldering detection device to inspect the soldering surface.
[0006] Preferably, each of the wire clamping devices includes a wire clamp and a bent tube connected to the wire clamp, wherein the bent tube is bent upwards.
[0007] Preferably, it further includes a double-clamp exchange device, which is mounted on one side of the dual-wire coaxial tinning automatic processing equipment and clamps each of the wires located in the tinning detection equipment.
[0008] Preferably, it further includes an automatic processing device for dual-wire coaxial terminals, which is mounted on one side of the dual-wire switching device.
[0009] Due to the adoption of the above technical solution, this utility model has the following beneficial effects:
[0010] 1. Through soldering detection equipment and wiring controller, the length of the wire can be automatically controlled and the soldering status of each wire can be effectively and accurately detected to improve the yield.
[0011] 2. By using a wire feeder combined with a double wire reel to deliver double wires, and using a rotating disk to produce double-wire coaxial terminals, the overall production quantity is increased, effectively improving the production efficiency of coaxial terminals. Attached Figure Description
[0012] Figure 1This is a schematic diagram of the equipment configuration of the dual-line coaxial tinning automatic processing equipment of this utility model.
[0013] Figure 2 This is a schematic diagram of the wire transmission path of the dual-coaxial tinning automatic processing equipment of this utility model.
[0014] Symbol Explanation
[0015] 1. Wire feeder; 2. Rotary disc; 3. First wire stripper; 4. Second wire stripper; 5. Third wire stripper; 6. Core wire inspection equipment; 7. Flux handling equipment; 8. Heat drying equipment; 9. Wire stretching equipment; 10. Soldering handling equipment; 11. Soldering cleaning equipment; 12. Wire push-back equipment; 13. Soldering inspection equipment; 14. Wiring controller; 15. Double wire reel; 16. Wire clamping equipment; 160. Wire clamp; 162. Bending tube; 17. Double wire clamping exchange equipment; 18. Automatic processing equipment for double-wire coaxial terminals. Detailed Implementation
[0016] Please refer to Figure 1 and Figure 2 The diagram shown is a schematic diagram of the equipment configuration and the wire transmission path of the automatic dual-wire coaxial tinning processing equipment of this utility model.
[0017] This utility model is an automatic tinning processing equipment for dual-wire coaxial wires, mainly including: a wire feeder 1, a rotary table 2, a first wire stripper 3, a second wire stripper 4, a third wire stripper 5, a core wire detection device 6, a flux handling device 7, a heat drying device 8, a wire stretching device 9, a tinning operation device 10, a tinning cleaning device 11, a wire push-back device 12, a tinning detection device 13, and a wiring controller 14. The wire feeder 1 is equipped with a dual-wire reel 15 and feeds dual wires. The rotary table 2 is mounted on one side of the wire feeder 1 and is equipped with a plurality of wire clamping devices 16. The wire clamping devices 16 are arranged in a ring at equal intervals. The first wire stripper 3, the second wire stripper 4, the third wire stripper 5, the core wire detection device 6, the flux handling device 7, the heat drying device 8, the wire stretching device 9, the tinning operation device 10, the tinning cleaning device 11, the wire push-back device 12, and the tinning detection device 13 are arranged sequentially around the rotary table 2 and adjacent to the wire clamping devices 16.
[0018] The aforementioned wiring controller 14 is mounted between the wire feeder 1 and the rotating disk 2. It controls the length of each wire fed by the wire feeder 1 to each wire clamping device 16 and cuts them. The rotating disk 2 rotates and drives each wire clamping device 16 (the arrows indicate the direction of rotation and the direction of wire movement) to move in sequence by the first wire stripper 3, the second wire stripper 4, and the third wire stripper 5 to complete the stripping of the double wires and expose the core wires. The core wire detection device 6 checks whether the stripping of the core wires is complete. Then, the flux handling device 7 applies flux to the core wires, and the hot drying device 8 dries the flux. The wire stretching device 9 stretches the double wires to a length that allows the soldering device 10 to solder the surface of the core wires on which the flux is applied. The soldering position on the core wire surface is wiped by the soldering cleaning device. The wire pusher device pushes the double wires back to a distance that allows the soldering detection device to detect the soldering surface.
[0019] The aforementioned wire clamping device 16 includes a wire clamp 160 and a bending tube 162 connected to the wire clamp 160. The bending tube 162 is bent upwards. When the wire clamp 160 receives the wire cut from the wiring controller 14, the wire can be set along the bending direction of the bending tube 162 through the bending tube 162, which effectively saves space.
[0020] In addition, a double-clamped wire exchange device 17 is installed on one side of the utility model double-coaxial tinning automatic processing equipment, and clamps each wire located on the tinning detection device 13, and transports each wire to the double-coaxial terminal automatic processing equipment 18 on one side, and makes coaxial terminals on the other end of each wire.
[0021] As can be seen from the foregoing, this utility model has the following beneficial effects: 1. By using a soldering detection device and a wiring controller, the length of the wires can be automatically controlled and the soldering status of each wire can be effectively and accurately detected, thereby improving the yield. 2. By using a wire feeder combined with a double wire reel to transport double wires, and using a rotating disk to perform soldering of the double-wire coaxial terminals, the overall manufacturing quantity can be increased, effectively improving the soldering efficiency of coaxial terminals.
Claims
1. An automatic tinning equipment for dual-wire coaxial bonding, characterized in that... : A cable feeder, which is equipped with a double cable reel and delivers two cables; A rotating disk is mounted on one side of the wire feeder and equipped with a plurality of wire clamping devices, each of which is arranged equidistantly around the other. Adjacent to the wire clamping devices around the rotating disk, a first wire stripper, a second wire stripper, a third wire stripper, a core wire inspection device, a flux handling device, a heat drying device, a wire stretching device, a soldering handling device, a soldering cleaning device, a wire retraction device, and a soldering inspection device are sequentially arranged. A wiring controller is installed between the wire feeder and the rotating disk. It controls the length of each wire fed by the wire feeder to each wire clamping device for cutting. The rotating disk rotates, causing each wire clamping device to move sequentially by the first wire stripper, the second wire stripper, and the third wire stripper to strip the double wires and expose the core wires. The core wire detection device checks whether the stripping of the core wires is complete. Then, the flux handling device applies flux to the core wires, and the heat drying device dries the flux. The wire stretching device stretches the double wires to a length that allows the soldering handling device to solder the surface of the core wires where the flux is applied. The soldering surface of the core wires is wiped by the soldering cleaning device. The wire pushing device pushes the double wires back to a distance that allows the soldering detection device to inspect the soldering surface.
2. The automatic tinning equipment for dual-wire coaxial bonding according to claim 1, characterized in that... Each of the wire clamping devices includes a wire clamp and a bent tube connected to the wire clamp, the bent tube being bent upwards.
3. The automatic tinning equipment for dual-wire coaxial bonding according to claim 1, characterized in that... It further includes a double-clamp exchange device, which is mounted on one side of the dual-wire coaxial tinning automatic processing equipment and clamps each of the wires located on the tinning detection equipment.
4. The automatic tinning equipment for dual-wire coaxial bonding according to claim 3, characterized in that... It also includes an automatic processing device for dual-wire coaxial terminals, which is mounted on one side of the dual-wire switching device.