Laser Marking Machines for Anti-Counterfeiting|Laser Holographic Invisible 2D Barcode Anti-Counterfeiting Technology and Identification Equipment

Laser engraving technology can be used to produce micro QR codes that are invisible to the human eye but can be read quickly by a dedicated device.The system is applicable to high-end products and identity documents and can effectively prevent counterfeiting.Supporting both handheld and fixed systems, the system is designed for use in a variety of environments, and meets the needs of companies for anti-counterfeiting from production to consumption. It helps to raise the level of anti-counterfeiting protection, and to strengthen consumer trust.

The laser technology for anti-counterfeiting uses precision laser equipment to etch microscopic patterns onto the surface of the product or onto the packaging. The patterns can be read by special spectral identification devices.Compared to traditional QR codes, this technology has three major advantages: First, its invisible features can't be copied by ordinary scanners, greatly increasing the difficulty of counterfeiting. Second, laser engraving can be customized to suit the material of the product being branded, allowing for precise one-to-one matching. Finally, the identification equipment supports offline verification, which is particularly suitable for on-site verification in places without internet access.

Complementary identification equipment comes in two types: a portable detector, and a fixed scanner terminal.The handheld device weighs only 200 grams, uses multispectral imaging technology, and can determine the authenticity of a note within three seconds. The battery life is over eight hours.Fixed equipment can be integrated into production lines or shop cash register systems to achieve automatic code scanning and data statistics.After one well-known brand of white liquor used the solution, the rate of complaints about counterfeit products dropped by 76 %. At the same time, the company used the data from the QR codes to improve its regional sales management.

There are three key factors to be considered in implementing this solution: In the material pretreatment stage, the reflectivity of the product surface must be assessed to ensure the clarity of the laser engraving; the data management platform must support the storage of tens of millions of codes and real-time validation requests; and the after-sales service team must provide equipment operation training and regular calibration services.The technology has already been successfully applied to the packaging of luxury goods, electronic components, special documents, and over 20 other fields. In the future, it can be used in combination with blockchain technology to ensure that the information on the supply chain cannot be tampered with.

A Three-Step Guide to Laser Security System Maintenance

The key to long-term stable operation of laser authentication systems? Just three steps to daily maintenance and upkeep: 1) cleaning, 2) function testing, and 3) software upgrades.

QR Codes in Everyday Life

By using special techniques to embed these QR codes in products, the products 'appearance can be preserved while also providing functions such as anti-counterfeiting, traceability, and information interaction.The article will also examine the technical principles behind the technology and its value to users, helping consumers and companies alike to better understand this innovative technology.

A Case Study: A Brand Uses Laser Technology to Fight Counterfeits

The company was able to solve the problem by introducing laser holography as an anti-counterfeiting measure.The event provided an opportunity for brands to learn about the process of introducing the technology, the methods of consumer verification, and the effectiveness of the anti-counterfeiting system.

Handheld ID Equipment User Guide

The training program provides detailed instructions on the correct operation of the handheld devices, as well as maintenance procedures. It includes such practical skills as how to turn the devices on, and how to select a scanning mode. It also provides solutions to common problems, such as when the device is unable to identify a target or the scanner fails. The training program helps users quickly master the devices, and thus improve their work efficiency.

Laser security vs. 2D barcodes

In this article, we compare the costs, the advantages and disadvantages, and the appropriate applications of laser security printing and traditional 2D barcode printing.From the perspectives of production investment, anti-counterfeiting effectiveness, and long-term maintenance, the article helps companies choose the appropriate solution based on budget and needs. Keywords include laser anti-counterfeiting costs, QR code printing, and anti-counterfeiting technology.

A Solution for Combating Counterfeits: From Production to Sales

The book offers a detailed explanation of the QR code anti-counterfeiting system, covering all aspects of the process from production to sales, including label design, data encryption, and consumer verification. The book will help businesses establish an efficient anti-counterfeiting system, increase the credibility of their products, and boost their competitiveness.

How to Select the Right Laser-Generated 2D Bar Code Reader

How to select the right laser barcode scanner? Starting from practical needs, this article analyzes key parameters, suitable scenarios, and brand comparisons, to help you match your industrial barcode scanning needs accurately, and improve scanning efficiency and stability.

Five Key Advantages of Laser-Based QR Codes for Product Authentication

Laser engraving of invisible barcodes for anti-counterfeiting purposes uses high-precision laser engraving and invisible design to provide products with a high level of security against counterfeiting.The system has five core advantages: It is hard to counterfeit, it has a controllable cost, and it is easy for consumers to verify. It helps businesses solve the problem of counterfeiting and boosts customer confidence in a brand.