The Infinity Coilers are a revelation in spring unit manufacturing. State-of-the-art processes utilise servo control coil formation. Thanks to the coilers’ innovative design, maintenance of the system and costly parts usage is reduced to an absolute minimum. No specialist operators are required – previously a major issue with spring unit manufacturing.
The Touch Screen Interface allows for simple adjustments to virtually every part of the spring. This means that mechanical adjustments to the system are virtually eliminated. It’s also possible to store multiple spring configurations within the system memory. These can then be easily accessed at the touch of a button when required.
Technical Specification 6″
Infinity Coiler Machine Features | Coiler Technical Data (Standard Machine) | Machine Voltages |
---|---|---|
Variable Speed Servo Controlled Coil Production | Wire Diameter: 1.40mm to 1.80 mm | 220v- 480 volts 3 phases + neutral |
Maximum Speed 65 Coils Per Minute | Spring Height: 150mm to 160mm | 50-60 Hertz |
Uses Micro Gauge Wire | Coiling speed: 60 – 65 coils per minute | |
Full Servo Control | Air Requirements | |
De-skilled Operation | Swift Cage: | Single Feed Per Coiler 100 psi |
Minimal Maintenance Costs | Designed For Swifts Weights Up To 1200kgs | Machine Dimensions (See Gallery) |
Fitted With Over-Feed Sensors |
Technical Specification 7″
Infinity Coiler Machine Features | Coiler Technical Data (Standard Machine) | Machine Voltages |
---|---|---|
Variable Speed Servo Controlled Coil Production | Wire Diameter: 1.90mm to 2.00 mm | 220v- 480 volts 3 phases + neutral |
Maximum Speed 65 Coils Per Minute | Spring Height: 190mm to 203mm | 50-60 Hertz |
Uses Micro Gauge Wire | Coiling speed: 60 – 65 coils per minute | |
Full Servo Control | Air Requirements | |
De-skilled Operation | Swift Cage: | Single Feed Per Coiler 100 psi |
Minimal Maintenance Costs | Designed For Swifts Weights Up To 1200kgs | Machine Dimensions (See Gallery) |
Completes 1 roll in 45 minutes each roll containing 1900 springs | Fitted With Over-Feed Sensors |