CO2 Laser Marking Systems optimize line integration.
April 9, 2014 -
Capable of marking simple and complex codes, 30 Watt Videojet 3330 and 10 Watt Videojet 3130 are suitable for wide array of substrates, including PET bottling, plastic labels, and laminated cartons. When speed is priority, manufacturers can utilize dot font mode to mark up to 30% faster than vector fonts, enabling print speeds up to 150,000 products per hour. Air cooled laser source plus optimized power settings minimize heat and extend life expectancy of laser source up to 45,000 hr.
Videojet Sets a New Pace with Innovative CO2 Laser Marking Systems
Videojet Technologies, Inc.
1500 Mittel Blvd.
Wood Dale, IL, 60191-1073
Press release date: April 1, 2014
Videojet’s CO2 Laser Marking Systems Boost Productivity by Improving Line Integration
Chicago, Illinois – As line speeds increase to cope with more demanding production targets, manufacturers need easier, more efficient laser marking to print high quality codes consistently on their products. To meet manufacturers’ demands for speed, simplicity, and reliability, Videojet Technologies, a global leader in coding, marking and printing solutions, has advanced its range of CO2 laser marking systems with the Videojet 3330 30 watt and the Videojet 3130 10 watt lasers. Delivering superior code quality across a range of marking speeds and suitable for a wide array of substrates, the 3310 and 3130 lasers mark simple and complex codes while providing easy integration for virtually any application. When speed is the ultimate priority, manufacturers can utilize the dot font mode in both the 3130 and 3330 to mark up to 30% faster than vector fonts, enabling print speeds up to 150,000 products per hour.
Recognizing that line integration is a critical element in delivering peak performance, Videojet offers over 20,000 standard configurations within its CO2 laser marking line including 21 mark window options and three laser wavelengths. “We know from experience that line integration in certain cartoner and labeler applications in the pharmaceutical, beverage, and food industries is challenging due to space restrictions,” explained Markus Vetter, Laser Business Unit Manager at Videojet Technologies. “The available configurations give Videojet the flexibility to match the physical integration needs of the packaging line, and the mark window options help ensure we can deliver the marking performance our customers need.” With three available laser wavelengths, the Videojet CO2 lasers can mark on a range of substrates including PET bottling, plastic labels, laminated cartons, and a host of plastic materials common in consumer packaging.
To meet the increasing demands for traceability marking, the 3330 and 3130 are ideal options for serialized coding applications in the pharmaceutical, tobacco, cosmetics, and other industries. “With the recent passage of United States Drug Quality and Security Act, the European Union Falsified Medicines Directive, and similar legislation in Brazil and elsewhere, our customers are looking for high quality alphanumeric and datamatrix marking,” added Vetter. “The high resolution marking head on the 3330 and 3130, when supported with good material handling and proper line integration, can deliver consistently high quality datamatrix codes.” Tobacco manufacturers can be confident that the 3330 and 3130 CO2 lasers are compatible with proposed industry association solutions to counter illicit trade, including the 12-digit unique alpha-numeric code format and machine-readable codes, such as a dotcode.
These laser systems deliver excellent Total Cost of Ownership due to their inherently low maintenance requirements and limited consumables. An air cooled laser source plus optimized power settings reduce heat and provide high reliability by extending the life expectancy of the laser source up to 45,000 hours. Complementing the 3330 and 3130, Videojet offers a range of fume extraction systems and filter options that can be tailored for the given application, helping to remove smoke and particulate debris and improving uptime by keeping the laser lens clean. Specifying the right laser solution supports easy integration, speeding up the installation and changeover process and ultimately increasing uptime. In addition to this, the detachable umbilical cable can be easily routed during set-up, helping to eliminate the need to move other machinery.
“The Videojet 3330 and 3130 laser marking systems offer the flexibility needed to deliver peak performance in a variety of challenging production environments,” said Vetter. “The vast range of standard configurations, our substrate flexibility, and the high resolution marking heads all combine to deliver the marking performance customers need so they can achieve their production goals.”
The 3130 and 3330 are the first in a number of innovative new laser products being launched by Videojet in 2014.
For more information about the Videojet 3310 10 watt and the Videojet 3330 30 watt lasers, call 0870 242 1759 or visit http://videojet.com
Videojet Technologies is a world-leader in the product identification market, providing in-line printing, coding, and marking products, application specific fluids, and product life cycle services. Our goal is to partner with our customers in the consumer packaged goods, pharmaceutical, and industrial goods industries to improve their productivity, to protect and grow their brands, and to stay ahead of industry trends and regulations. With our customer application experts and technology leadership in continuous ink jet (CIJ), thermal ink jet (TIJ), laser marking, thermal transfer overprinting (TTO), case coding and labeling, and wide array printing, Videojet has more than 325,000 printers installed worldwide. Our customers rely on Videojet products to print on over ten billion products daily. Customer sales, application, service, and training support is provided by direct operations with over 3,000 team member in 26 countries worldwide. In addition, Videojet’s distribution network includes more than 400 distributors and OEMs, serving 135 countries.
©2014 Videojet Technologies Inc. All rights reserved.