HeidelbergREF: TECH2026046cc0
Heidelberg Stahlfolder TI 52 | 2006
Available Now2006used
Spécifications Techniques
Catégorie
Folding Machines
Marque
Heidelberg
Modèle
Heidelberg TI 52
Année
2006
Emplacement
L'Isère, France
Spécifications Techniques
| Modèle | Heidelberg TI 52 |
| Format Max Feuille | 84 x 52 cm (33 x 20 inch) |
| Vitesse d'Impression Max | 200 meters / minute |
| Dimensions | 2.8 m x 1.2 m |
| Poids | 1100.00 kg |
Description
Configuration: Typically 4 or 6 buckles in the first station (modular).
Year: 2006.
Machine type: Buckle folding machine.
Max sheet size: 52 x 84 cm.
Min sheet size: 10 x 15 cm.
Feeder type: Flat pile feeder (Fi) or Round-pile feeder (Ri) with Tremat suction head.
Control system: MCT (Modular Control Technology) or DCT digital control.
Folding rollers: ExtraGrip polyurethane/steel rollers.
Max speed: 200 meters / minute.
Slitter shafts: Standard rear-mounted shafts for scoring, perforating, and cutting.
Noise protection: Integrated sound insulation hoods.
Delivery: Often paired with a mobile stream delivery (e.g., SAK 52).
Substrate thickness: 40 g/m² to 250 g/m².
Total weight: approximately 900 kg to 1,100 kg (depending on the number of stations).
Machine dimensions (L x W): approximately 2.8 m x 1.2 m.
Power consumption: approximately 4 kW to 6 kW.
Year: 2006.
Machine type: Buckle folding machine.
Max sheet size: 52 x 84 cm.
Min sheet size: 10 x 15 cm.
Feeder type: Flat pile feeder (Fi) or Round-pile feeder (Ri) with Tremat suction head.
Control system: MCT (Modular Control Technology) or DCT digital control.
Folding rollers: ExtraGrip polyurethane/steel rollers.
Max speed: 200 meters / minute.
Slitter shafts: Standard rear-mounted shafts for scoring, perforating, and cutting.
Noise protection: Integrated sound insulation hoods.
Delivery: Often paired with a mobile stream delivery (e.g., SAK 52).
Substrate thickness: 40 g/m² to 250 g/m².
Total weight: approximately 900 kg to 1,100 kg (depending on the number of stations).
Machine dimensions (L x W): approximately 2.8 m x 1.2 m.
Power consumption: approximately 4 kW to 6 kW.