Laser System User Interfaces
How It Works
Universal Laser Systems provides two user interfaces. The UCP supports the VLS, PLS and ILS product lines. The LSM supports the XLS product line. Both interfaces allow users to execute laser processing jobs with three easy steps:
- 1. Print or Direct Import the design file.
- 2. Select the material from the database and enter thickness.
- 3. Press “Start.”
In addition to this streamlined work flow, the user interfaces provide many powerful features that greatly enhance productivity, ROI, flexibility and quality. The LSM provides some additional features such as segment reduction, line simplification and smoothing, kerf compensation, and drill and pierce modes.
Both interfaces are multilingual, allowing for the same easy to use interface to be used around the world.
Ease of Use
The user interfaces are designed to be intuitive and easy to use. Running laser processes with these interfaces is as easy as 1-2-3. The user first uploads or prints the design file. Virtually any design file format can be used. The next step is to select the material from the Materials Database and enter a thickness. The database automatically calculates the optimized laser settings. The final step is to press “Start” to begin laser processing.
Design files in PDF and DXF formats can be directly imported into both user interfaces. The LSM has the addition ability to accept STL and G-code formats. The Direct Import feature has the advantage of preserving the integrity of the original design file, unlike competitive systems that rely on printer drivers only.
The Materials Database can calculate optimized laser settings for hundreds of materials. This eliminates the need for users to develop settings through trial and error, saving substantial time and materials. The Materials Database window (see below) makes it easy for users to select the proper material. The optimum settings are then calculated automatically enabling the user to achieve professional quality laser processing results safely and efficiently.
Any design file can easily be duplicated to fill the entire laser processing field (as shown in the images below). The user simply uploads the graphic and then selects the Duplicate feature. The user can either choose to create a certain number of duplicates or fill the entire process field with as many duplicates as will fit. This is ideal for maximizing manufacturing efficiency.
The Estimate feature allows users to compare processing throughputs with various laser system configurations. Estimates can be run with different platforms, different laser powers, and different throughput enhancing options (such as SuperSpeedTM and Dual Head) to determine what configuration will deliver the best throughput for a particular laser processing job. This helps customers to optimize their ROI.
Storage and Organization
All information needed to execute a laser process is stored and organized so that it can be recalled easily for future use. The user interface can store 2000 different files. Files can also be exported in a proprietary EMF format for use on other ULS laser systems.
The Manual Controls feature allows users to enter unique laser settings for unique materials and applications. Every laser processing parameter can be controlled individually using the manual controls, providing unlimited processing flexibility (see below).
The Camera Registration option, enabled by the user interfaces, automates the alignment of vector paths and raster strokes with the material for the purpose of tightening process control. It automatically aligns design files with pre-printed graphic designs on the material to compensate for misalignment or stretching of the material. This ensures high laser processing accuracy.