USP - K03
The USP K‐series Thermal Transfer Overprinter ranks among the world’s most cost‐effective smart coding machines, providing total solutions to soft‐packaging coding, to serve a wide range of applications such as food, pharmaceuticals, daily‐use chemicals and seeds.
USP - K03 Intermittent
For complete solutions in coding and marking on-the-fly.
The USP K-series Thermal Transfer Overprinters, among the world’s most cost-effective smart coding machines, provide excellent solutions to soft- packaging coding in a wide range of fields like food, pharmacy, daily-use chemicals and seeds.
|Printhead||32mm, 300dpi (12 points/mm)|
|Print Area||32mm x 60mm|
|Ribbon Length||600m (max)|
|Ribbon Width||22mm ~ 33mm|
|Power Supply||AC 110 ~ 220V, 50/60Hz, 200W|
|Operating Temperature||0 ~ 40oC|
|Relative Humidity||10% ~ 95% (non-condensing)|
|Air Supply||6 bar / 90PSI (max), dry, no pollution|
|Printer Unit dim. (L x W x H)||188mm x 190mm x 180mm (L x W x H)|
|Controller Box dim. (L x W x H)||175mm x 235mm x 110mm|
|Weight of the instrument||Printer Unit 8.5kg, Controller Box 2.0kg|
As solutions offered by us are need‐based, customization is key to success, since one’s need will be vastly different from that of the other like, for instance, some companies stress the need for quality print; some others target a printer that will work on a specific substrate. There is, then, a load of in‐situ challenges ‐ unceasing production, adaptability to varied working conditions and, differences in packaging requirements.
Vegetables & Fruits
Meat and Poultry
- Corrugated Materials
- Vegetables & Fruits
- Plastic extrusion
This printer is so designed as to improve overall productivity and enables companies to minimise operator intervention in the packaging process.
Highly versatile and reliable, as they can be used on a variety of porous and non‐porous substrates, Very low maintenance costs, as these printers can run for many hours before they need to be serviced, High‐speed production lines greatly benefit, as these printers are capable of fast, accurate printing on substrates.