UV LED Curing Lamp for UV Inkjet Printing

The 120×15mm series UV LED Curing Lamp for UV Inkjet Printing from UVET is designed to deliver consistent, high-quality curing for a wide range of printing systems. With a strong UV output of up to 8W/cm², this lamp offers fast, uniform curing while helping reduce both energy consumption and operational costs.

Engineered for flexibility, the lamp supports four commonly used UV wavelengths—365nm, 385nm, 395nm, and 405nm. This allows users to match the light output to the curing requirements of different UV-reactive inks, coatings, or adhesives. As a result, the system improves curing accuracy and enhances overall print quality.

Its compact 120×15mm irradiation area makes it ideal for use in UV inkjet printing systems that need to cure narrow to medium-width zones without compromising precision. Whether you’re working on high-speed production or short-run specialty jobs, this lamp provides the performance needed to keep your workflow efficient.

Features

• Stable UV intensity – Delivers up to 8W/cm², ensuring fast, even curing for reliable production outcomes
• Adjustable output – Allows you to fine-tune UV intensity based on ink type, print thickness, and substrate sensitivity
• User-friendly design – Simple controls and quick setup reduce operator learning time
• Wide compatibility – Integrates easily into small, medium, and large-format inkjet printers, as well as digital, screen, and 3D printing platforms

Why Choose UV LED Curing Lamp for UV Inkjet Printing?

The optimized 120mm by 15mm irradiation size gives users the flexibility to cure across both narrow and moderately wide printing areas. It balances coverage and focus, making it a versatile choice for varied printing applications.

The selectable wavelengths allow greater compatibility with different types of inks and coatings. By choosing the right wavelength for the material’s photoinitiator, you can ensure better bonding, sharper details, and more consistent finishes. This flexibility makes the lamp a dependable tool in print environments with multiple curing demands.

The lamp leverages the latest LED curing technology. It turns on instantly, without warm-up time, improving efficiency during startup and production cycles. The low heat emission helps preserve sensitive substrates and reduces the need for external cooling systems. It also contributes to a quieter, safer work environment.

The long lifespan of LED components means less frequent maintenance, reducing downtime and long-term costs. These advantages support a more sustainable and energy-conscious printing operation.

Applications

This UV LED Curing Lamp for UV Inkjet Printing is well-suited for:

• Flatbed UV inkjet printing
• Digital and screen printing
• Resin curing in 3D printing
• Adhesive curing in automated UV workflows

Built for speed, precision, and energy savings. For additional technical details, customization options, or a consultation, please reach out to our team.

Q1: What is a UV LED Curing Lamp for UV Inkjet Printing used for?

A: It is used to instantly cure UV-curable inks during the inkjet printing process, allowing high-speed printing on various substrates such as plastic, metal, glass, wood, and flexible films.

Q2: Why choose UV LED curing over traditional mercury lamps in inkjet printing?

A: UV LED curing offers instant on/off control, longer lifespan, lower heat output, energy savings, and a safer, mercury-free solution that supports sustainable production.

Q3: What UV wavelengths are compatible with UV inkjet inks?

A: Typical wavelengths are 385 nm, 395 nm, and 405 nm, selected based on the photoinitiators in the UV ink formulation to ensure fast, full curing and strong adhesion.

Q4: Can UV LED Curing Lamps be customized for different printer models?

A: Yes, lamps are available in various sizes, cooling methods, and power levels, and can be tailored to integrate with flatbed, roll-to-roll, or single-pass UV inkjet systems.

Q5: What are the key considerations for maintaining print quality with UV LED curing?

A: Ensure correct lamp positioning, match ink and wavelength, clean the optical window regularly, maintain proper cooling, and monitor UV output to ensure consistent curing performance.