Specification: Length*Width*Height(mm)(mm):232 5 x 403 x 1240
Products Indoor Pinter Woolen Sweater Texti...Plate Type Textile P...Direct Spray Textile...Consumable Your present location: Home > Products > Indoor Pinter > NIPRINT A series water-based piezoelectric printer X-1608Products Enlarge Image Product Name: NIPRINT A series water-based piezoelectric printer X-1608 Product ID: X-1608 Added time: 2012-05-22 Views: 10
The printer uses a high-speed fifth-generation spray nozzle developed by Japan. The spray nozzle has totally 1, 440 spray orifices which are distributed in eight rows, with 180 spray orifice in each row. The number of spray orifice of the spray nozzle is four times that of the conventional spray nozzle.
The design of a fully-sealed air draft structure and a mute air draft fan allows the printer to operate most quietly, enhancing the working environment of staffs.
High-precision paper feeding disc molded ensures concentricity and paper feeding uniformly, while improving paper feeding precision by over 30 percent and refining the pictures.
In comparison with C-grade precision, the original HW1NH-grade high precision of the mute guide rails is 30 percent higher. Stable high-quality printing is thus realized.
The multi-point pressure self-adapting pressure wheel guarantees the most accurate pressure control. This makes the paper feeding smoother and realizes continuous stable printing.
Brand-new mold pressure piece design delivers flexible sliding, firmness, stability and flatness, ensuring stable and continuous printing.
The trolley comprised of many high-precision mold components realizes stepless regulation of the height of the spray nozzle, along with fixed ink cell position and convenient spray nozzle calibration.
Latest Japan Fifth-generation Crystal Micro Piezoelectric Nozzle
Color of Ink
Type of Ink
± 10.5 m2/h
Type of Medium
Various Water-based Printing Materials, Including High Glossy Photo Paper, PP, Lamp Piece and Canvas
Automatic Damping Fabric Feeding System, Automatic Paper Collecting System (Optimal)