Can't Read the Barcode?

If you're having trouble reading bar codes, don't panic! Here are three simple steps to help you solve the problem.From checking the device's status to adjusting the scanning angle, and on to optimizing the quality of the barcode, the detailed steps will help you easily solve the problem of the scanner not being able to read the barcode, and will improve work efficiency.

Laser Marking Parameters and Code Readability

In response to the difficulties of adjusting the parameters of laser marking machines, the authors tested 20 commonly used materials to determine the best way to adjust the machine to ensure that barcodes can be read.The optimization scheme covers parameters for metal, plastic, and wood, helping users quickly improve the clarity of the markings and the success rate of scans, and solving the problem of setting parameters in production.

Six Tips for Extending the Life of Your Laser Anti-Counterfeiting Equipment

The daily maintenance of laser anti-counterfeiting equipment has a direct impact on its lifespan and stability.These six useful tips cover cleaning and maintenance, environmental control, and regular calibration, and they help users master maintenance skills, lower the failure rate, and extend the period of efficient operation.

Dynamic Encryption + Laser Engraving: New Technologies for Anti-counterfeiting

The combination of dynamic encryption technology with laser engraving offers a new solution to the problem of product counterfeiting.The use of dynamic encryption and high-precision laser marking raises the bar for would-be counterfeiters.The technology is applicable in many fields, including pharmaceutical packaging and luxury goods identification, and can help companies solve their counterfeiting problems and protect consumers.

Beware! These anti-counterfeiting measures are easiest to forge

The anti-counterfeiting labels on the market are not absolutely secure, and some types are at risk of malicious tampering.The event exposed the vulnerabilities of QR codes, holographic anti-counterfeiting stickers, and bar codes, and provided practical solutions such as upgraded coatings and dynamic verification systems to help consumers and merchants quickly identify genuine products, and to improve the reliability of anti-counterfeiting technology.

A Practical Guide to Laser Technology for Fighting Counterfeiting

The article uses case studies to explain how the food and pharmaceutical industry can use laser technology to upgrade its anti-counterfeiting capabilities, and covers the core advantages of the technology, its application scenarios, and implementation steps.The company helps businesses and consumers to quickly identify authentic products, and reduces the risk of counterfeiting by providing the industry with a practical solution.

From Theory to Practice: How Laser Markers Work

This article takes a look at the workings of laser marking machines, from the theoretical principles behind them to how they are applied. It explains in detail how the machines use high-precision etching techniques to create anti-counterfeiting marks that are difficult to replicate. It also looks at practical examples of laser anti-counterfeiting technology in industry and consumer products, to help users understand its advantages and how they can use it.

Three Steps to Laser Marking Security

The three practical solutions it provides to this problem are: optimizing the laser marking process, introducing dynamic encryption technology, and establishing an intelligent detection system.By upgrading the materials and methods used to verify the authenticity of the codes, companies can increase the security of their anti-counterfeiting codes, lower the risk of counterfeiting, and safeguard the reputation of their products in the marketplace.

Five Criteria for Choosing the Right Anti-Counterfeiting Solution

From the five dimensions of technical security, cost, compatibility, user experience, and expandability, this article will teach you step by step how to choose a suitable anti-counterfeiting solution for your product.We compare the characteristics of mainstream anti-counterfeiting technologies, enabling companies to find the right balance between anti-counterfeiting effectiveness and cost-effectiveness.

A Complete Guide to Laser Holograms (Including Tips on Setting Parameters)

This book provides a detailed explanation of the entire process, from design to finished product, of making holographic security labels. It covers the selection of materials, techniques for setting parameters, and actual applications.The company also offers practical solutions to common problems such as "the hologram manufacturing process" and "setting parameters for anti-counterfeiting labels," helping users to quickly grasp the core points of using holographic anti-counterfeiting technology.

Five Things to Check Before You Brand

Before the logo is stamped on the product, the following five points need to be carefully checked: legal risk, graphic clarity, color standards, brand consistency, and file format.Combining real-life case studies with practical advice on how to avoid copyright infringement and guarantee good printed results, the course helps brands avoid design pitfalls and build professional visual identities.

Using Laser Software for Path Optimization

The course covers everything from software installation and basic operation to advanced techniques, helping users quickly master laser cutting path optimization technology.The book uses case studies to show how to increase cutting efficiency, save on materials, and solve common operational problems. It is a useful reference for those in the laser processing industry.

From Design to Production: The Process of Creating a Corporate Logo

It will cover the entire process from design to application, including brand positioning, building a visual system, material selection, and practical application techniques.By breaking the process down into clear, simple steps, it helps companies efficiently produce their own logos and raise their brand image and market recognition.

How to Avoid Image Distortion

This article details the three key techniques of resolution setting, file format selection, and compression parameter adjustment, and explains how to use them to keep images sharp and detailed.

Vector Graphics Resolution Setting: A Guarantee of Laser Engraving Clarity

The resolution of the vector image is a critical factor in the clarity of the laser engraving.The book explains in detail how to adjust vector graphics resolution and optimize design parameters to ensure that the finished laser engraving is clear with no blurring. It also provides solutions to common problems, helping users quickly master the core techniques for improving engraving quality.

A Guide to Avoiding Pitfalls in Converting CorelDRAW Files to Laser Marking Files

This article provides practical solutions to the common problems encountered when converting CorelDRAW design files to laser engraving format.The program covers key techniques such as layer management, color mode selection, and file format selection. It helps users avoid problems such as overlapping color blocks and misaligned engravings, thereby increasing the efficiency of laser marking file production.

Solutions to Laser Software Problems

When companies use laser software to import logos, they often encounter errors due to incompatible file formats, too-low resolution, or software configuration problems.The program offers solutions to common problems and covers file format optimization, parameter adjustment, and compatibility settings, helping users quickly solve problems with importing logos and ensuring a smooth design process.

Three Tricks to Get Your Illustrator File Ready for Laser Cutting

If you want to use an AI file to quickly finish laser engraving, but you always seem to get stuck in the mud, here are three key techniques to help you out: AI file format inspection, matching parameters, and optimizing vector paths.It just takes five minutes to master the core techniques, and then even a beginner can avoid problems like blurry patterns and misaligned carvings.

How to Link a Laser Marking Machine to a PLC for Dynamic Numbering

It explains in detail how to use a PLC to control a laser marking machine to automatically generate serial numbers, covering hardware connections, communication protocols, and data exchange logic.The content focuses on actual applications, helping users quickly master the key technology of linking laser marking machines and PLCs, thereby increasing automation efficiency on production lines.

Optimizing Laser Engraving Speed and Serial Number Clarity

They offer practical suggestions on how to balance the speed of laser marking with the clarity of the serial number.These include laser power, frequency, and scanning speed, and help customers quickly find the best configuration of parameters, ensuring high production efficiency and clear marking.This is suitable for production managers and equipment operators to consult.

Telegram group send message in bulkTelegram group send message in bulkView Detail

Laser marking machine users' scenarios and practical problems. related articles