Industry Application Needs
Fiber laser cutting machines are currently the most advanced laser cutting equipment in terms of overall performance. They work by utilizing a high-energy-density laser beam generated by a fiber laser generator to precisely cut and engrave metal products. Overcoming issues like low efficiency, large size, and high maintenance costs associated with other laser devices, fiber laser cutting machines have found widespread industrial applications.
Common Laser Cutting Machine Equipment Requirements
In industrial use, fiber laser cutting machines impose stringent requirements on the operational functionality and environmental adaptability of their components:
Centralized Interaction Interface: The numerical control (NC) mechanical system of fiber laser cutting machines necessitates a centralized interactive window for easy monitoring of machine status, presetting of engraving and cutting parameters, formulation of cutting patterns and paths, and trajectory modification, enabling efficient and high-quality visual transformation applications.
Robust Environmental Adaptability: The laser cutting process often involves dust, metal shavings, intense vibrations, and oil stains, posing a severe challenge to the overall performance of cutting machine systems. Good adaptability to industrial environments is crucial for maintaining stable equipment operation.
Given these demands, selecting a high-performance industrial-grade touch all-in-one device plays a pivotal role in laser cutting machine applications.
Product Solution
Stark's embedded industrial all-in-one devices offer optimal solutions for fiber laser cutting machine applications, delivering the following advantages in actual projects:
Intelligent Control: Equipped with highly intelligent control boards and robust hardware capabilities, Stark's embedded industrial all-in-ones boast powerful computing power to smoothly execute various commands, including program presetting and motion control for laser engraving. Multiple application schemes and motherboard configurations cater to diverse needs.
Software Interaction: Running on multiple operating systems like Windows, Android, Linux, and Ubuntu, Stark's devices support system customization and software development, enabling users to effortlessly create personalized human-machine interfaces. Strong system compatibility, combined with professional laser cutting machine control software, streamlines design, nesting, programming, and verification processes, enhancing equipment utilization.
High-Resolution Display: Adopting high-specification industrial-grade LCD screens, Stark's embedded all-in-ones display vivid colors and clear images. Available in sizes ranging from 7'' to 23.8'', their flat front panels meet IP65 dust and waterproof standards, ensuring durability and preventing scratches from fine metal debris during laser cutting.
Easy Operation: With support for both resistive and 10-point capacitive touch, Stark's devices offer smooth and precise responses, even with gloved fingers. Flexible I/O interfaces accommodate peripherals like mice and keyboards, enhancing operational convenience and freedom.
Industrial Protection: Constructed with aluminum alloy, Stark's embedded industrial all-in-ones are sturdy, corrosion-resistant, and impact-resistant. Internally, military-grade components and designs adhering to GB2423 shock resistance, ESD electrostatic protection, and EMI/EMC anti-interference standards effectively withstand harsh industrial environments like dust, metal shavings, intense vibrations, and oil stains. This safeguards the stability of laser cutting machine internals like motors, servos, and laser generators, reducing maintenance costs.
Application Empowerment
Fiber laser cutting machines represent one of Stark's industrial all-in-one devices' application branches in the smart manufacturing sector. As intuitive interactive devices bridging traditional hardware machinery and intelligent equipment, touch all-in-ones actively contribute to various industries.