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This product is the high-end catheter manufacturing equipment of the independent scientific and technological innovation of Dr. King-Mazon's team., mainly serving high-precision catheter manufacturing in aviation, aerospace, aviation and other fields. No hydraulic system is required, and each movement shaft is precisely driven by a servo motor and controlled by a CNC system. Multi-station pipe end forming machine is a pipe end forming machine with multiple mold stations at the same time, the horizontal design of the forming machine, can choose 1 to 10 mold stations, the cylinder clamp the workpiece, the hydraulic cylinder push the forming mold forward, through the extrusion of the mold to the end of the pipe fitting for forming processing, you can also have expansion, shrinkage, pier, rotation and other functions. Usually used in aircraft duct, auto parts, air conditioning pipe fittings, hardware products and other industries.
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Multi-Station End Forming Machine is a high-end catheter manufacturing equipment independently developed by King-Mason’s team. It is designed for precision tube end processing in aviation, aerospace, and related fields. The machine features a horizontal structure, multi-mold station design, and servo motor-driven precision control. It eliminates the need for hydraulic systems, relying on CNC technology to achieve functions such as tube expansion, shrinkage, grooving, and upsetting. With manual and automatic operation modes, it delivers high efficiency, accuracy, and safety, making it an essential tool for high-precision tube manufacturing.
| Technical specification | Unit | EFR6T | EFR8T | EFR12T | EFR25T | EFR50T | EFR100T | EFR200T |
| Maximum outer diameter of machined steel pipe | mm | 25 | 38 | 42 | 60 | 80 | 125 | 220 |
| Maximum wall thickness of maximum outside diameter | mm | 2.0 | 2.5 | 3 | 4 | 6 | 9 | 12.0 |
| Working stations | EA | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 |
| Maximum effective travel | mm | 70 | 100 | 140 | 170 | 200 | 250 | 300 |
| Length of spinning groove | mm | 0-25 | 0-30 | 0-35 | 0-45 | 0-60 | 0-80 | 0-100 |
| Servo motor power | kw | 1.5 | 2 | 2.5 | 3 | 5.5 | 11 | 15.0 |
Equipped with 1-10 optional mold stations (1-6 standard stations, including a rotating station). It completes multiple end-forming processes in one setup.
Offers tube expansion, shrinkage, grooving, sleeve assembly, sleeve upsetting, and rotation. It caters to various tube end processing requirements.
Each movement axis is driven by Siemens servo motors and controlled by Siemens CNC systems. It ensures high positioning accuracy and processing repeatability.
Uses cylinder clamping to secure workpieces and hydraulic cylinders to push forming molds. The horizontal clamping mode enhances stability during processing.
Supports manual point control for machine and mold adjustment. Automatic mode completes workpiece processing with a foot switch, improving production efficiency.
Adopts Siemens servo motors and CNC systems for feed motion control. It delivers high processing accuracy and consistent product quality.
Eliminates hydraulic systems, reducing maintenance needs and potential leakage risks. It ensures clean, stable operation.
Optional 1-10 mold stations allow customization based on processing requirements. It supports complex end-forming workflows.
Integrates expansion, shrinkage, grooving, upsetting, and assembly functions. It eliminates the need for multiple specialized machines.
Equipped with an emergency stop device, independent lubrication system, and hydraulic cooling system. It ensures safe, long-term stable operation.
Automatic mode processes workpieces in 3-6 seconds per station. The counter function records production quantities for workflow management.
Manual mode offers point control for easy machine and mold adjustment. The horizontal design enhances accessibility and operational convenience.
Processes aircraft duct ends, fuel pipe fittings, and hydraulic tube components. It meets aviation-grade precision requirements.
Used for forming ends of automotive air conditioning pipes, fuel lines, and hydraulic components. It ensures tight connections and structural integrity.
Manufactures precision tube ends for air conditioning pipe fittings and refrigeration system components. It enhances sealing performance.
Processes ends of metal hardware tubes for furniture, construction, and industrial applications. It improves assembly efficiency.
Applied in spacecraft tube fittings and aircraft engine hydraulic tubes. It adheres to high-reliability manufacturing standards.
It offers servo-driven precision, multi-station integration, diverse forming functions, and hydraulic system-free design. It improves efficiency, accuracy, and operational safety.
Standard models support 1-6 stations (including a rotating station). Custom configurations up to 10 stations are available to meet specific production needs.
It offers expansion, shrinkage, grooving, sleeve assembly, sleeve upsetting, and rotation. These functions cover most tube end processing requirements.
Multi-Station End Forming Machine is a high-end catheter manufacturing equipment independently developed by King-Mason’s team. It is designed for precision tube end processing in aviation, aerospace, and related fields. The machine features a horizontal structure, multi-mold station design, and servo motor-driven precision control. It eliminates the need for hydraulic systems, relying on CNC technology to achieve functions such as tube expansion, shrinkage, grooving, and upsetting. With manual and automatic operation modes, it delivers high efficiency, accuracy, and safety, making it an essential tool for high-precision tube manufacturing.
| Technical specification | Unit | EFR6T | EFR8T | EFR12T | EFR25T | EFR50T | EFR100T | EFR200T |
| Maximum outer diameter of machined steel pipe | mm | 25 | 38 | 42 | 60 | 80 | 125 | 220 |
| Maximum wall thickness of maximum outside diameter | mm | 2.0 | 2.5 | 3 | 4 | 6 | 9 | 12.0 |
| Working stations | EA | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 | 1-6 |
| Maximum effective travel | mm | 70 | 100 | 140 | 170 | 200 | 250 | 300 |
| Length of spinning groove | mm | 0-25 | 0-30 | 0-35 | 0-45 | 0-60 | 0-80 | 0-100 |
| Servo motor power | kw | 1.5 | 2 | 2.5 | 3 | 5.5 | 11 | 15.0 |
Equipped with 1-10 optional mold stations (1-6 standard stations, including a rotating station). It completes multiple end-forming processes in one setup.
Offers tube expansion, shrinkage, grooving, sleeve assembly, sleeve upsetting, and rotation. It caters to various tube end processing requirements.
Each movement axis is driven by Siemens servo motors and controlled by Siemens CNC systems. It ensures high positioning accuracy and processing repeatability.
Uses cylinder clamping to secure workpieces and hydraulic cylinders to push forming molds. The horizontal clamping mode enhances stability during processing.
Supports manual point control for machine and mold adjustment. Automatic mode completes workpiece processing with a foot switch, improving production efficiency.
Adopts Siemens servo motors and CNC systems for feed motion control. It delivers high processing accuracy and consistent product quality.
Eliminates hydraulic systems, reducing maintenance needs and potential leakage risks. It ensures clean, stable operation.
Optional 1-10 mold stations allow customization based on processing requirements. It supports complex end-forming workflows.
Integrates expansion, shrinkage, grooving, upsetting, and assembly functions. It eliminates the need for multiple specialized machines.
Equipped with an emergency stop device, independent lubrication system, and hydraulic cooling system. It ensures safe, long-term stable operation.
Automatic mode processes workpieces in 3-6 seconds per station. The counter function records production quantities for workflow management.
Manual mode offers point control for easy machine and mold adjustment. The horizontal design enhances accessibility and operational convenience.
Processes aircraft duct ends, fuel pipe fittings, and hydraulic tube components. It meets aviation-grade precision requirements.
Used for forming ends of automotive air conditioning pipes, fuel lines, and hydraulic components. It ensures tight connections and structural integrity.
Manufactures precision tube ends for air conditioning pipe fittings and refrigeration system components. It enhances sealing performance.
Processes ends of metal hardware tubes for furniture, construction, and industrial applications. It improves assembly efficiency.
Applied in spacecraft tube fittings and aircraft engine hydraulic tubes. It adheres to high-reliability manufacturing standards.
It offers servo-driven precision, multi-station integration, diverse forming functions, and hydraulic system-free design. It improves efficiency, accuracy, and operational safety.
Standard models support 1-6 stations (including a rotating station). Custom configurations up to 10 stations are available to meet specific production needs.
It offers expansion, shrinkage, grooving, sleeve assembly, sleeve upsetting, and rotation. These functions cover most tube end processing requirements.
