FXT20 + C系列
直管对管封闭腔室焊接。φ3.175–168 mm。半导体UHP、生物制药WFI、卫生食品。
FYID-Feiyide
无法加载取货服务可用情况

FYID-Feiyide FXT20 Pro + U系列是一款自动化轨道GTAW(TIG)焊接系统,专为U形弯管与直管之间的圆周角焊缝设计——即换热器U形管束、AI数据中心液冷模块和制药双管换热器中的"管内管"插座接头几何形状。
这不是改装用于U形弯管接头的通用轨道焊机。FXT20 Pro + U系列从零开始针对该接头几何形状特有的三种失效模式进行设计:旋转过程中内管表面的弧长不稳定、插座处薄合并壁厚的烧穿,以及仰焊道次中316L不锈钢内壁氩气保护不足。
5 A起弧电流和全闭环伺服旋转在批量生产的每个接头上实现一致的热输入和弧长,逐焊参数记录支持机架级液冷系统调试的质量检验可追溯性。
双通道集成氩气保护——同时保护外部熔池和内管——在316L不锈钢上产生银白色无氧化焊缝内壁,防止氧化铁颗粒进入冷却回路并到达GPU冷板微通道。
1.5 kg · 最小管间距≥18 mm · 最小直管延伸≥16 mm。适用于高密度U形管束。
2.0 kg · 最小管间距≥18 mm · 最小直管延伸≥16 mm。标准制冷及换热器U形管。
3.0 kg · 最小管间距≥24 mm · 最小直管延伸≥16 mm。中径U形管束。
3.5 kg · 最小管间距≥30 mm · 最小直管延伸≥16 mm。大型U形管换热器,制药双管。
四款U系列焊头(U12 / U16 / U20 / U25)均可在同一台FXT20 Pro上运行。工业PLC + 10英寸触摸屏,8区×8级参数控制,200组程序,全闭环伺服旋转响应时间<1 ms。双通道集成氩气保护(外部熔池+内管同步)。直管对管轨道焊接请参见FXT20 + C系列封闭腔室平台。
订购前,请对照以下接触限制条件确认管束图纸。U系列焊头必须能在每个管内管插座接头处实体定位并旋转。若管间距或直管延伸不满足所选焊头的最低要求,焊头将无法到达接头位置。
报价前请提供:换热器或液冷模块管束图纸(或尺寸表),注明管道外径、壁厚、管间距(中心距)和U形弯管外侧直管延伸长度。我们在订单确认前核实焊头适配性并编写初始参数程序。
不是。它们共用同一类紧凑型电源(220V单相4.5 kVA 5–200A),但是焊头几何形状不同的两款产品。FXT20 + C系列焊头是用于直管对管对接焊缝的封闭腔室焊头。FXT20 Pro + U12/U16/U20/U25焊头是用于管内管角焊缝的U形弯管插座焊头。电源型号为FXT20 Pro;焊头系列称为U系列(U12、U16、U20、U25)。C系列和U系列焊头不能互换。
区别在于接头几何形状。AI数据中心液冷有两类接头:直管对管集管焊缝(使用FXT20 + C系列封闭腔室)和回流弯管与直管连接的U形弯管插座接头(使用FXT20 Pro + U12/U16/U20/U25)。是否两者都需要取决于冷板、集管和回流弯管的设计。
CuNi合金列为"需调整参数后兼容"。标准预设程序默认不涵盖CuNi;我们应要求开发定制工艺。对于大批量CuNi生产,请联系我们的工艺工程团队获取工艺资质认证支持。
接头类型不同。PT40将管端焊接至管板面(直管在换热器管板处终止的接头)。FXT20 Pro + U系列焊接U形管回流插座——U形管与直管段重新连接的位置。典型换热器制造通常两者都需要——PT40用于管板密封焊接,FXT20 Pro用于U形弯管回流焊接。
U形弯管焊接围绕固定中心旋转。步进电机系统在力矩瞬变(熔池突然移位)时可能失步,导致环周焊缝轮廓不一致。全闭环伺服消除了失步风险——驱动在任何扰动发生后1 ms内完成修正。这就是在逐接头检验焊缝轮廓一致性的批量生产中,驱动控制至关重要的原因。
The FXT20 Pro-C is a specialized automated system designed for the high-precision socket welding of heat exchanger U-tubes to straight tubes. Known as a "precision surgeon" for tube bundles, it utilizes pulse TIG welding technology to complete 360° circumferential fillet welds. It is specifically engineered to ensure leak-free operation in high-temperature and high-pressure environments, replacing inconsistent manual welding.
It addresses four critical industry challenges: burn-through of thin-walled tubes, inconsistent penetration in confined spaces, oxidation of the internal weld bead, and the cracking of welds during post-weld tube expansion. By using digital 8-zone programming, it ensures a uniform weld formation that manual welding cannot replicate.
Yes. The FXT20 Pro-C features ultra-low current control with arc initiation starting at just 5A. This precision, combined with a Pulse DC TIG control system, allows it to weld tubes with a combined wall thickness of ≤1.6mm perfectly, making it ideal for small-diameter heat exchanger tubes (φ16mm and below).
The system is optimized for austenitic stainless steel (304, 316L) and duplex stainless steel (2205). Its integrated internal argon gas channel prevents sensitization and oxidation, maintaining the original physical and corrosion-resistant properties of the stainless steel.
During the welding of stainless steel, high temperatures can cause the internal wall to oxidize and turn black. The FXT20 Pro-C integrates an internal argon interface that delivers protective gas inside the tube simultaneously with the external torch. This ensures a silver-white metallurgical appearance on the inner wall, meeting GMP cleanliness standards without the need for pickling.
Absolutely. The FXT20 Pro-C is designed specifically for the "weld before expand" sequence required by standards like ASME VIII and GB/T 151. By precisely controlling heat input, it creates high-strength welds that do not crack during the subsequent tube expansion process, eliminating crevice corrosion risks.
The welding head features a compact horseshoe-shaped structure that requires a minimum tube center spacing of 38.1mm. This allows it to access and weld compact tube bundles where manual welding is impossible due to dense tube arrangements.
Yes. The welding head is extremely lightweight at only 3kg, and the power source weighs 22kg. It is designed for portability, allowing operators to move between workstations or perform on-site repairs easily with its standard 8-meter flexible cable.
It uses an 8-zone independent programming system and a full closed-loop servo control system. This allows the machine to automatically adjust current and rotation speed at different positions (such as 6 o'clock vs. 12 o'clock) to compensate for gravity effects, ensuring uniform weld beads throughout the entire circumference.
We provide 7×18 hours online video support in English and Chinese, a 12-month warranty, and lifetime technical assistance. Our service includes remote diagnosis and PQR (Procedure Qualification Record) support to help customers optimize their welding parameters for specific materials and wall thicknesses.