by clicking the arrows at the side of the page, or by using the toolbar.
by clicking anywhere on the page.
by dragging the page around when zoomed in.
by clicking anywhere on the page when zoomed in.
web sites or send emails by clicking on hyperlinks.
Email this page to a friend
Search this issue
Index - jump to page or section
Archive - view past issues
FLEXO Magazine : October 2011
nyloflex® Automated Plate Processor 1320 mm x 2032 mm (52.0" x 80.0") 300 mm x 300 mm (11.8" x 11.8") 0.7 mm - 7 mm (0.028" - 0.276") 400 V, 50/60 Hz (3 Ph/N/PE) 25A 12.5 kW min. 1700 Nm3/h (1000 CFM) R1⁄2" R1⁄2" 7450 kg (16424 lbs) 4100 x 2150 x 1800 mm (161.4 x 84.6 x 70.9") 2620 x 2150 x 2100 mm (103.1 x 84.6 x 82.7") 2750 x 2150 x 1900 mm (108.3 x 84.6 x 74.8") 2460x2150x2100mm( 96.9x84.6x82.7") 2005x1300x1000mm( 78.9x51.2x39.4") 1600x1000x 500mm( 63.0x39.4x19.7") Flint Group Flexographic Products Sieglestrasse 25 70469 Stuttgart Germany T +49 711 9816-301 F +49 711 9816-801 firstname.lastname@example.org www.flintgrp.com All information in this document is based on our present knowledge and experience at the time of printing. Due to the multitude of factors influencing the processing and application of our products, it does not exempt the user from testing and calibrating. Nor does it imply any legally binding assurance concerning specific proper ties of the products or the suitability for a par ticular application. The responsibility of observing any possible industrial property rights, laws and regulations is the obligation of the user. Subject to technical changes without prior notice. Product names marked ® are registered trademarks of Flint Group. You are welcome to contact us for further information. Equipment dimensions Technical data Maximum plate size (W x L) Minimum plate size (W x L) Plate thickness Electrical connection Nominal current Nominal power Exhaust air flow rate Tubes 27 pcs., TL 80 W 10R (UV-A), 1500 mm (59.1“) 26 pcs., 58 W (UV-C), 1500 mm (59.1“) Compressed air 6 mm, 6 bar, 4000 l/min (0.24“, 87 PSI, 141 CFM) Fresh solvent connection Waste solvent connection Weight (approx.) net – in total Crate dimensions (W x D x H) – 6 pcs. – Washer – Dryer – Light finisher – Stacker – Table – Diverse nyloflex® Automated Plate Processor 2011-03 New and innovative approach to set a new standard in flexo form making nyloflex® NExT High Intensity UV Exposure Technology to create Flat Top Dots and for Surface Screening The innovative way of exposing flexographic printing plates with UV-A LEDs offers great possibilities to establish a new quality standard for flexo form making. The high level of UV emission leads to a significant improvement in the reproduction of finest relief elements. The ability to reproduce high resolution surface screenings provides superior print quality with much better ink laydown. The improved mechanical properties and the precisely defined surface of flat top dots ensure a consistent high print quality, also for long print runs. Step 1 – High intensity UV surface crosslinking Step 2 – Through-cure with conventional UV tubes In comparison to typical digital dots, the physical characteristics of flat top dots enable reduced dot gain tolerances, which are usually caused by varying impression settings. The nyloflex® NExT system can be used with virtually all types of digital plates; there are no limitations regarding plate types, substrates and ink systems. Typical, digitally imaged plates are exposed with UV-A tubes under ambient atmosphere. The oxygen present in the atmosphere acts as an inhibitor during the crosslinking reaction. This leads to a dot reduction during data transfer from the layout to the finished plate. However, a one-to-one reproduction of the original data would be the ideal case. The question is: How to minimise or avoid the oxygen inhibition? This is presently the most widely discussed topic in the flexo industry. With nyloflex® NExT, the high intensity UV exposure accelerates the polymerisation propagation. Due to strong surface curing, the oxygen effect is eliminated. How does oxygen inhibition affect the print result? In the first step a UV-A exposure is performed by scanning the plate surface with a high emission UV LED line. This results in a very fast crosslinking of the surface, even faster than the oxygen diffusion occurs. Thus, the oxygen effect is suppressed. In a second step, the relief is created by exposure with standard UV-A tubes. In addition to a significantly higher level of UV intensity (up to 20 times), the emission of UV LEDs is much more consistent, and the lifetime is longer compared to conventional UV tubes. Due to the beneficial characteristics of UV LEDs, which do not reduce their UV intensity over their lifetime in the way conventional UV tubes do, nyloflex® NExT substantially enhances production consistency, especially for recurrence orders. Two step exposure – Combination of UV-A LEDs with UV-A tubes nyloflex® NExT, a high intensity UV exposure technology, introduced by Flint Group Flexographic Products, enables precise reproduction of the digital layout onto the finished printing plate. requiresNOadditionalCONSUMABLES Flint Group Flexographic Products www.flintgrp.com