Brochure about the company uviterno AG. Technology for UV-Polymerization. Company and Products.
The BT-B belt dryer was designed to cure decorated 3D parts, such as cups, lids, glassware, and metal parts, using UV radiation. Features are: Belt dryer for 3D parts (objects), All-round curing of decorations, two UV radiation heads each with an arc length of 450 mm, light traps at infeed and outfeed, easy accessibility for operation and maintenance, special belt which is UV-resistant and food-safe, integrated vacuum intake system to fix conveyed parts to the belt, efficient stepless UV active power control Application examples: Hollow-part decorations (cups, lids), Products made of plastic, glass, aluminum, and decoration industry, Coated 3D parts, Attachment for special-purpose machines
The UTUK G3+ represents an advancement of the proven UV chain dryer UTUK G3 for cylindrical hollow bodies, incorporating various suggestions and customer requests. The G3+ device version features a novel and optimized chain guidance system that ensures a 30% increase in residence time and UV dose for the hollow bodies being irradiated within the exposure chamber. The G3+ now includes a viewing window to inspect the interior for fallen hollow bodies. These can be swiftly and easily removed through an integrated drawer.
The LAB BD / LAB BD-BT products are designed to cure decorated 3D parts, such as cups, lids, glassware, and metal parts, using UV radiation in your laboratory
Our UV-LED modules of the UA1R type are suitable for a wide range of applications requiring low to medium irradiance levels, covering tasks from pinning to curing of inks and surface coatings. Thanks to the compact dimensions of these modules, integration is feasible even in tight spaces. The irradiation length of a UA1R module measures 110 mm. By aligning multiple modules, an irradiation length that is a multiple of 110 mm can seamlessly be achieved. The focusing of emitted radiation through a rod lens is particularly advantageous for curved surfaces, efficiently treating contoured (rotating) molded objects such as tubes, sleeves, and similar components. The focused beam path is also optimal for digital printing applications, as stray radiation is minimized, effectively safeguarding sensitive digital print heads from both direct and indirect UV exposure. Optionally, we offer custom-configured control cards to facilitate signal exchange when integrating into printing machines, allowing multiple UV-LED modules to be grouped and controlled as logical units as required.
UV radiation heads from the ACS product line offer new UV curing options thanks to the cooling concept with no exhaust air. Their very compact construction allows for easy integration into almost any machine concept.The radiation heads are cooled by a water cooling circuit without any intake or removal of external cooling air. In other words, no air-conditioned air is removed from the pressroom. The cooling concept of the ACS radiation heads ensures optimized operating conditions over the entire service life of UV lamps and UV reflectors.
The air-cooled UA5R UV-LED module shares similar geometric dimensions with the UA1R (with a 13 mm increase in height and a 7 mm increase in depth at the same module width); however, it is significantly more powerful and suitable for UV applications with medium to high irradiance levels. The UA5R module also features the innovative rod lens for precise focusing of emitted radiation. This is crucial for efficiently irradiating curved surfaces, whether for processing rotating shapes such as tubes and sleeves, or for precise digital printing applications. Our technology minimizes stray radiation and safeguards delicate digital print heads from both direct and indirect exposure. By seamlessly aligning multiple modules, an irradiation length that is a multiple of 110 mm can be achieved. Additionally, we offer custom-configured control cards as an option to facilitate signal exchange during integration into printing machines. This allows for grouping multiple UV-LED modules as needed and controlling them as logical units.
The DSK radiation head is a universal highpower UV radiation head for UV curing applications. Thanks to its compact shape and very high power output, it is suitable both for fitting in confined spaces and for complex curing applications at high irradiance levels. Available as option: Design variant DSK-W (water-assisted cooling to reduce heat when radiating highly heatsensitive substrates)
Discover the practical complement to our BLACKline UV LED modules: uviterno's configurable interface cards. These cards have been specifically designed for controlling our BLACKline UV LED modules and are ideal for integration into printing machines and similar system concepts. They enable easy operation, seamless integration, and the grouping of multiple UV modules into logical control clusters. uviterno interface cards offer an efficient solution for smoothly controlling and integrating your UV technology.
Offering a solution for an optimal use of low migration printing inks, uviterno has developed a sophisticated UV curing system, based on air cooling with the DSK Web-Line, and a combination of air and water cooling with the DSK Web-Line Pro. Using an additional water cooling system, the DSK Web-Line Pro increases the output power by more than 30%, enabling a higher printing speed and providing a power reserve for hard-to-cure formulations.
The SRK Cup-Line radiation head is an energy-efficient, cost-optimized, high-power radiation head for rapidcycle UV curing processes in the cup printing industry. This is an innovative, space-saving radiation head that also optimizes costs. Compared to UV processes with the weil know SBK «JUMBO» class radiation heads, the SRK Cup-Line concept allows you to achieve identical productivity, but with power savings of 40% without any trade-off in UV curing results.
The product line SRK Wood-Line is a family of UV radiation heads with very compact dimensions and was developed specially for wide-format coating machines. The lamp and reflector geometry have been chosen in order to provide multi-purpese applicability. Depending on process requirements, irradiation in the optimum focal line or in a defocused plane can be provided. At an arc length of 1450 mm, a maximum specific power rating of 120 W/cm is possible. On request, higher specific power ratings are available for shorter arc lengths.
Our water-cooled UV-LED systems consist of high-performance light sources designed for UV-curing applications in the UV-A wavelength range. Individually applied optical elements allow for precise adjustment of desired emission angles, optimized for a variety of applications such as digital printing, screen printing, flexographic printing, offset printing, as well as curing coatings, adhesives, glues, or varnishes. They are also suitable for special applications like foaming PU (polyurethane). The uviterno REDline modules are available in lengths ranging from 60 to 1,620 mm, in 60 mm increments.
The STK radiation head features a simple design to meet basic function requirements. Cooling air is blown through the radiation head and escapes out of the radiation window. This prevents the ingress of dirt particles, prolongs the service life of components. The design of the two radiation head variants is optimized to produce a simple, rugged, compact and lightweight shape which fits in tight spaces.
Discover the practical complement to our REDline UV LED modules: uviterno's configurable interface cards. These cards have been specifically designed for controlling our REDline UV LED modules and are ideal for integration into printing machines and similar system concepts. They enable easy operation, seamless integration, and the grouping of multiple UV modules into logical control clusters. uviterno interface cards offer an efficient solution for smoothly controlling and integrating your UV technology.
Devices from the PHASER EVO product line are compact, high-power electronic ballasts to operate UV lamps. Development focused specially on cost-optimized and energy-efficient operation. The devices are suitable for all UV radiation curing applications. The well-conceived connectivity concept permits easy conventional operation by analog signal (current or voltage), or potentiometer. The optional CANopen interface facilitates the implementation of modern, digitally networked operating concepts.
We have optimized the geometry and surface finish of our reflectors and quartz-glass transmitters for every possible application to achieve maximum UV efficiency and the longest possible service life of the components. We would be delighted to advise you on the best possible configuration of a UV radiation head for your specific application. More accessories on request.
The core of our UV systems are high-power lamps specially manufactured for our UV radiation heads to the highest quality requirements and adapted to the customized requirements of your UV processes. To reproduce and guarantee the reliability and long service life of our UV lamps, which have specific rated power outputs up to 600 W/cm, only high quality raw materials and production materials are processed in a complex production process which complies with EN ISO 9001.