When an industrial business stands at the threshold of growth, it is imperative for its decision-makers to ensure that their operations meet quality and regulatory expectations. Moreover, its systems should promote the creation of superior products, fostering sustained development. Traditional marking and coding techniques often do not meet these requirements, especially considering the rigorous standards of the robotics industry. These traditional systems frequently make compromises on aspects like efficiency, quality, reliability, and output standards.
Laser marking technology has demonstrated its crucial role in enhancing various manufacturing processes, from the stringent requirements of medical equipment to the demanding regulatory obligations of aerospace engineering components. The increasing use of industrial robots has necessitated the industries’ largest production lines to seek a marking strategy that guarantees uniform, reliable results.
The influence of robotics in part marking
Robotic systems are integral to modern manufacturing practices. They allow expanding companies to boost efficiency and cater to growing product demand by automating vital operations. However, the expansion of industrial robotic applications brings its own challenge – the necessity for an equally efficient process for coding and labelling robotic components.
Advancements in laser technology have enabled the reliable, widespread deployment of robotic solutions across manufacturing and production lines worldwide, with the UK’s laser technology spearheading this fully autonomous system.
Incorporation of laser technology in engineering
The rapid adoption of robotics is evident across all sectors, but the most significant and seamless integration is noticeable within the manufacturing and production engineering industry.
For these companies, it is essential to imprint assets accurately and permanently with distinct identification to track and trace them throughout their entire lifecycle. Thanks to their precision and permanence, laser marking systems are the ideal solution for this.
Using laser technology for part marking provides several advantages over traditional methods like rotary engraving or dot-peen systems. Engineers, utilising lasers, can permanently etch various data such as:
- serial codes
- matrices
- part numbers
- images
- batch coding
– all critically important for quality control and tracking. Moreover, laser marking offers a non-contact, efficient way of applying a design that preserves the material’s integrity and allows for the duplication of precise markings without variations between parts.
QR codes are ideal for transmitting a wide range of information, including serial numbers and barcodes. For instance, depending on the application, the most recent service date of a machine or equipment can be determined by scanning the laser-engraved barcode using a smartphone.
This makes laser marking an exceptional choice for large-scale production lines. It is also invaluable in sectors where tracking is fundamental to ensure the safe manufacturing and distribution of consumer goods.
The ability to implement such systems seamlessly on large scales promotes a fast, automated manufacturing process requiring minimal user intervention – and with fewer moving parts, it presents a cost-effective method to elevate production to any desired level of scale, efficiency, and quality.
Laser marking systems offer unmatched innovative solutions for the smooth integration of coding and marking systems on a production line. With fewer moving parts, it is a cost-effective technique to amplify production to any desired level of scale, efficiency, and quality.
Please visit: https://www.needhamlaser.com for more information.