Horiuchi Electronics Co., Ltd. Product Lineup

In the automotive electrical equipment industry, precise processing of parts is required to enhance product reliability. In particular, cutting the lead wires of electronic components is a crucial factor in the assembly process, and variations in dimensions can lead to product malfunctions and quality degradation. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Application Scenarios】 - Circuit board assembly processes for automotive electrical equipment - Lead wire cutting operations for electronic components - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the game console industry, mass production and quality maintenance are required. In particular, the cutting of lead wires for electronic components greatly affects the efficiency of the assembly process and the reliability of the products. Variations in dimensions can lead to assembly delays and product malfunctions. Cutters solve these challenges by accurately cutting lead wires to a consistent size. 【Usage Scenarios】 - Assembly process of game console circuit boards - Cutting work of lead wires for electronic components - Efficiency improvements in mass production lines 【Benefits of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Increased productivity

• Other mounting machines

In the audio equipment industry, precise processing of components is required to enhance product sound quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions or degradation of sound quality. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Usage Scenarios】 - Assembly process of audio equipment circuit boards - Cutting work of lead wires for electronic components - Improvement of precision in quality control departments 【Effects of Implementation】 - Improved precision in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the microwave manufacturing industry, precise processing of components is required to enhance product quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions and quality degradation. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Usage Scenarios】 - Circuit board assembly processes for home appliances - Lead wire cutting operations for electronic components - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced working time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the lighting fixture industry, precise processing of components is required to enhance product quality and reliability. In particular, cutting the leads of electronic components is a crucial factor in the assembly process, and variations in dimensions can lead to product malfunctions and quality degradation. Cutters solve these challenges by accurately cutting leads to a consistent size, contributing to cost reduction. 【Application Scenarios】 - PCB assembly process for lighting fixtures - Lead cutting work for electronic components - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the television industry, precise processing of components is required to enhance product quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions and quality degradation. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Usage Scenarios】 - Circuit board assembly processes for home appliances - Cutting operations for electronic component lead wires - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the washing machine manufacturing industry, precise processing of electronic components is required to enhance product quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions and a decline in quality. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Application Scenarios】 - Assembly process of washing machine circuit boards - Cutting operations for electronic component lead wires - Improvement of accuracy in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the refrigerator manufacturing industry, precise processing of components is required to enhance product quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial factor in the assembly process, and variations in dimensions can lead to product malfunctions and quality deterioration. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Application Scenarios】 - Circuit board assembly processes for home appliances - Lead wire cutting operations for electronic components - Precision improvement in quality control departments 【Benefits of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the air conditioning manufacturing industry, precise processing of components is required to enhance product quality and reliability. In particular, the cutting of lead wires for electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions and a decline in quality. Cutters address these challenges by accurately cutting lead wires to a consistent size. 【Application Scenarios】 - PCB assembly process for air conditioning products - Cutting work for electronic component lead wires - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the home appliance manufacturing industry, precise processing of components is required to enhance product quality and reliability. In particular, cutting the leads of electronic components is a crucial element in the assembly process, and variations in dimensions can lead to product malfunctions and a decline in quality. A cutting machine resolves these issues by accurately cutting the leads to a consistent size. 【Usage Scenarios】 - Assembly process of circuit boards for home appliances - Lead cutting work for electronic components - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead cutting - Reduced working time - Decreased defective products - Stabilization of quality

• Other mounting machines

In the electronic equipment manufacturing industry, product quality control and efficient production systems are essential. In particular, marking on printed circuit boards (PCBs) is crucial for ensuring product traceability and reducing errors in the manufacturing process. Manual marking requires time and effort and is prone to human error. Our inline CO2 laser marker, when integrated into the SMT assembly line, enables printing on PCBs without stopping the line, thereby enhancing traceability. 【Usage Scenarios】 * Printing of part numbers, manufacturing dates, serial numbers, etc., on PCBs * Identification management through the printing of two-dimensional codes such as QR codes, DataMatrix codes, and Micro QR codes * Automation of processes by integrating into the SMT assembly line 【Benefits of Implementation】 * Improved production efficiency without disrupting line takt * Enhanced quality control through strengthened identification management * Easier tracking of defective products due to improved traceability

• Laser marker

In the automotive parts industry, there is a demand for improved product quality control and traceability. Accurate identification code printing from the manufacturing of parts to their incorporation into the final product is essential for the early detection of defects and for rapid response during recalls. The LMS-K500ML is equipped with standard 2D code and barcode printing functions, and it can also be integrated into SMT assembly lines, thereby streamlining the traceability management of automotive parts. 【Usage Scenarios】 - Printing identification codes on automotive parts - Integration into SMT assembly lines - Traceability management 【Benefits of Implementation】 - Improved traceability of parts - Enhanced efficiency in quality control - Rapid response in the event of defects

• Laser marker

In the electronic components industry, accurate printing of model numbers and manufacturing information is required to ensure product traceability. This is especially crucial for miniaturized electronic components, where high-precision marking is essential. Blurry prints or printing errors can complicate quality control and tracking of products. The LMS-K500ML is equipped with standard 2D code and barcode printing functions, and it can be integrated into SMT assembly lines, thereby streamlining traceability management for electronic components. 【Usage Scenarios】 - Printing model numbers on printed circuit boards - Printing 2D codes (such as QR codes and DataMatrix codes) - Integration into SMT assembly lines 【Benefits of Implementation】 - Improved traceability - Stabilization of print quality - Increased production efficiency

• Laser marker

In the agricultural sector, ensuring traceability of crops is crucial. By tracking each stage from production to consumption, it becomes possible to enhance quality control, improve safety, and respond quickly when issues arise. Particularly as consumer interest in food safety increases, accurate information management is required. Our double-sided printed circuit board CO2 laser marker enhances traceability by printing on crops and related materials. 【Application Scenarios】 - Printing lot numbers, producer information, dates, etc., on crops - Printing identification information on seeds and seedlings - Printing information on containers for pesticides and fertilizers 【Benefits of Implementation】 - Strengthened quality control through improved traceability - Enhanced food safety - Gaining consumer trust - Quick identification of causes and responses when issues occur

• Laser marker

In the wearable device industry, miniaturization and lightweight design are always in demand. The miniaturization of circuit boards is a crucial factor that directly affects the overall size and weight of the device. Double-sided marking enhances the design flexibility of the circuit board and contributes to miniaturization. Our printed circuit board double-sided printing CO2 laser marker enables optimization of circuit board design through double-sided printing, contributing to the lightweight design of wearable devices. 【Application Scenarios】 - Manufacturing circuit boards for wearable devices - Circuit board marking for devices requiring miniaturization and lightweight design - Marking of high-density mounted circuit boards 【Benefits of Implementation】 - Optimization of circuit board design through double-sided printing - Improvement in production takt time - High reliability achieved with the KEYENCE CO2 laser marker "ML-Z" series

• Laser marker

In the gaming industry, there is a demand for compact and high-performance products, making the miniaturization of circuit boards an important challenge. By efficiently implementing components on both sides, the overall size of the equipment can be reduced. Our double-sided printing CO2 laser marker performs marking on both sides of the circuit board, contributing to miniaturization and improved productivity. 【Usage Scenarios】 - Circuit boards for compact gaming consoles - Circuit boards for handheld gaming devices - Circuit boards for VR/AR devices 【Benefits of Implementation】 - Achieving miniaturization through double-sided printing of circuit boards - Improvement in production takt time - High printing quality achieved with KEYENCE CO2 laser marker "ML-Z" series

• Laser marker

In the energy industry, product reliability and efficient production systems are essential. Particularly in fields such as solar power generation systems and storage batteries, precise marking on substrates is crucial for product quality control and traceability. Simultaneously printing on both sides improves production efficiency and contributes to cost reduction. Our double-sided printing CO2 laser marker for printed circuit boards addresses these challenges. 【Application Scenarios】 - Marking on solar power generation system substrates - Printing component information on storage battery substrates - Manufacturing lines for energy-related equipment 【Benefits of Implementation】 - Improved production takt time through double-sided printing - Enhanced printing accuracy with alignment features - Strengthened quality control through ensured traceability

• Laser marker

In the security industry, accurate printing on circuit boards and tamper prevention are required to ensure product reliability. In particular, it is important to leave evidence of traceability and tampering to prevent information leakage and misuse. Our double-sided printing CO2 laser marker for printed circuit boards makes tampering difficult by printing on both sides of the board, thereby enhancing the security level. 【Usage Scenarios】 * Manufacturing security devices * Managing confidential information * Ensuring product traceability 【Benefits of Implementation】 * Prevention of circuit board tampering * Improved product traceability * Enhanced security level

• Laser marker

In the field of robot control, accurate marking on circuit boards is crucial for improving product quality management and traceability. Particularly in miniaturized electronic devices, high-precision marking is required. Inaccurate marking can lead to assembly errors and misidentification of products. Our double-sided printing CO2 laser marker for printed circuit boards supports double-sided printing and contributes to increased production efficiency. 【Application Scenarios】 - Manufacturing of robot control circuit boards - Marking on circuit boards of electronic devices - Improvement of quality management and traceability 【Benefits of Implementation】 - Increased production efficiency through double-sided printing - Quality improvement through high-precision marking - Reliability provided by the KEYENCE CO2 laser marker "ML-Z" series

• Laser marker

In the industrial machinery sector, accurate and durable marking on substrates is essential to ensure the long-term reliability of products. For products that must withstand harsh environments, visibility and durability of the printing are crucial. Blurry markings or peeling can compromise product quality control and traceability. This product supports double-sided printing and contributes to increased production efficiency. 【Usage Scenarios】 - Marking on substrates of industrial machinery where durability is required - Printing on substrates of products used in harsh environments - Improvement of product quality control and traceability 【Benefits of Implementation】 - Increased production efficiency through double-sided printing - Reliability provided by the KEYENCE CO2 laser marker "ML-Z" series - Enhanced quality control through alignment and 2D code reading verification

• Laser marker

In the aerospace industry, precise marking on circuit boards is crucial due to the high demand for reliability and durability. Products that can withstand harsh environments require stringent quality control and traceability, and the accuracy of marking directly affects the reliability of the product. Our double-sided printing CO2 laser marker for printed circuit boards enables printing on both sides, contributing to increased production efficiency. 【Application Scenarios】 * Printing of part numbers, manufacturing lot numbers, serial numbers, etc., on circuit boards for aerospace equipment * Marking on circuit boards used in harsh environments, such as those requiring heat resistance, vibration resistance, and shock resistance * Improvement of product quality control and traceability through high-quality marking 【Benefits of Implementation】 * Increased production efficiency through double-sided printing * High-quality printing enabled by the KEYENCE CO2 laser marker "ML-Z" series * Strengthened quality control through alignment and dual support for 2D code reading and verification

• Laser marker

In the communication authentication industry, the reliability and traceability of products are crucial. Accurate marking on the circuit board during the certification process is essential for product identification and quality control. Incorrect marking can lead to delays in certification and misidentification of products. Our double-sided printing CO2 laser marker for printed circuit boards contributes to increased production efficiency through double-sided printing. 【Usage Scenarios】 - Printing serial numbers on circuit boards for communication devices - Printing authentication codes - Managing the manufacturing history of products 【Benefits of Implementation】 - Improved production efficiency through double-sided printing - Enhanced quality control through accurate marking - High reliability provided by the KEYENCE CO2 laser marker "ML-Z" series

• Laser marker

In the medical device industry, product traceability and quality control are extremely important. Accurate marking on printed circuit boards is essential to ensure product traceability and reduce errors in the manufacturing process. Particularly, since medical devices require high precision and reliability, the accuracy of marking directly impacts product safety. Our double-sided printing CO2 laser marker supports double-sided printing and contributes to the efficiency and quality improvement in the manufacturing of medical device circuit boards. 【Usage Scenarios】 - Printing model numbers and manufacturing dates on medical device circuit boards - Printing serial numbers for traceability purposes - Printing inspection results for quality control 【Benefits of Implementation】 - Improved production takt time through double-sided printing - Enhanced printing accuracy through alignment features - Strengthened traceability through 2D code reading

• Laser marker

In the home appliance industry, accurate marking on circuit boards is required for product quality labeling and tracking of manufacturing history. Particularly in compact home appliances, it is important to efficiently mark both sides of the circuit board while minimizing space. Inaccurate marking or marking only on one side can hinder product quality management and traceability. Our double-sided printing CO2 laser marker for printed circuit boards contributes to improved production efficiency by allowing simultaneous printing on both sides. 【Usage Scenarios】 - Printing model numbers and manufacturing dates on circuit boards of home appliances - Ensuring identification of components and traceability - Marking on both sides of the circuit board 【Benefits of Implementation】 - Improved production takt time through double-sided printing - High-quality printing achieved with the KEYENCE CO2 laser marker "ML-Z" series - Realization of alignment, 2D code reading, and verification through image processing

• Laser marker

In the automotive industry, accurate marking on circuit boards is required to ensure the traceability of parts. Particularly for automotive components used in harsh environments, the durability of the printing is crucial. Unclear printing can hinder traceability and potentially disrupt quality control. Our double-sided printing CO2 laser marker provides high-precision printing on both sides of the circuit board, facilitating the tracking of automotive parts. 【Usage Scenarios】 - Ensuring traceability in the manufacturing process of automotive parts - Quality control of parts and investigation of causes when defects occur - Improving traceability across the entire supply chain 【Benefits of Implementation】 - Efficient marking through double-sided printing - Enhanced traceability due to high-precision printing - Cost reduction through increased production efficiency

• Laser marker

In the lighting fixture industry, ensuring product quality control and traceability is crucial. Particularly for substrates like LED lighting, identification information during the manufacturing process is essential. Poor printing quality can make it difficult to track products and identify defects, potentially undermining customer trust. Our CO2 laser marker for printed circuit board printing can be integrated into the SMT assembly line, allowing for substrate printing without stopping the line. It supports various 2D codes and barcodes, enabling identification management at the substrate level and enhancing traceability. 【Usage Scenarios】 - LED lighting substrates - Manufacturing processes of lighting fixtures - Improvement of quality control and traceability 【Benefits of Implementation】 - Improved production efficiency without disrupting line takt - Strengthened quality control through substrate identification management - Gaining customer trust through enhanced traceability

• Laser marker

In the security industry, the reliability and traceability of products are extremely important. In particular, a high level of security is required to prevent tampering and misuse of circuit boards. If the information printed on a circuit board is tampered with, the authenticity of the product is compromised, increasing the risk of misuse. Our CO2 laser marker for printed circuit board printing makes tampering difficult by directly printing onto the circuit board, thereby enhancing product traceability. 【Usage Scenarios】 * Manufacturing of electronic devices * Manufacturing of security devices * Manufacturing of highly confidential products 【Benefits of Implementation】 * Prevention of circuit board tampering * Improved product traceability * Enhanced security level

• Laser marker

In the robot industry, component management relies heavily on the identification and tracking of printed circuit boards (PCBs). Particularly for quality control and efficiency in the manufacturing process, the information printed on the PCBs is essential. Incorrect printing or missing prints can lead to confusion between components and the occurrence of defective products, potentially reducing production efficiency. Our CO2 laser marker for PCB printing, when integrated into the SMT assembly line, enables PCB printing without stopping the line, contributing to the efficiency of component management. 【Use Cases】 - PCB identification on robot manufacturing lines - Ensuring component traceability - Information tracking in quality control 【Benefits of Implementation】 - Printing while maintaining line takt - Accurate component management through 2D codes - Improved quality through enhanced traceability

• Laser marker

In the solar power generation industry, accurate quality labeling on substrates is required to ensure product quality and reliability. Particularly in solar power generation systems used in harsh environments, the durability and visibility of the labels are crucial. Unclear or easily fading labels can compromise product traceability and lead to quality management issues. Our CO2 laser marker for printed circuit board printing addresses these challenges and provides high-quality printing. 【Usage Scenarios】 - Printing on substrates during the manufacturing process of solar panels - Printing of product serial numbers, manufacturing dates, lot numbers, etc. - Improvement of quality control and traceability 【Effects of Implementation】 - Enhanced reliability of quality labeling through high-quality and durable printing - Strengthened traceability through identification management at the substrate level - Maintenance of production efficiency through inline marking that does not disrupt line takt

• Laser marker

In the semiconductor industry, managing the identification and traceability of substrates is essential for quality control and efficiency. Particularly as manufacturing processes become more complex, there is a need to enhance the traceability of substrates and suppress the occurrence of defects. Our CO2 laser marker for printed circuit board printing can be integrated into SMT assembly lines, achieving substrate printing without stopping the line. This contributes to improved efficiency and quality in process management. 【Usage Scenarios】 - Printing QR codes, DataMatrix codes, micro QR codes, and barcodes on substrates - Strengthening traceability through identification management at the substrate level - Position correction, front-back distinction, and reading confirmation using image processing cameras 【Benefits of Implementation】 - Increased productivity through marking while maintaining line takt - Stabilization of printing quality and high reliability - Strengthening traceability through identification management of substrates

• Laser marker

In the industrial machinery sector, product identification and tracking are essential for quality control and ensuring reliability for customers. Particularly for machine parts used in harsh environments, durable and highly visible marking is required. Traditional marking methods can face challenges such as the loss of identification information due to wear or peeling, or decreased work efficiency. Our CO2 laser marker for printed circuit board printing addresses these issues, supporting stable marking and efficient production processes. 【Usage Scenarios】 - Printing model numbers, serial numbers, and manufacturing dates on nameplates - Ensuring product traceability - Streamlining parts management 【Benefits of Implementation】 - Long-term retention of identification information through highly durable laser marking - Increased productivity through inline printing that does not disrupt line takt - Improved quality through accurate position correction and reading confirmation with image processing cameras

• Laser marker

In the home appliance industry, product quality control and efficient production systems are essential. Particularly in lot management, it is important to assign accurate identification information to each circuit board to ensure traceability throughout the entire manufacturing process. Improper marking or management can lead to product quality issues and delays in the manufacturing process. Our CO2 laser marker for printed circuit board printing can be integrated into the SMT assembly line, achieving board printing without stopping the line. 【Usage Scenarios】 - Printing lot numbers on circuit boards for home appliances - Identification management of circuit boards in the manufacturing process - Strengthening traceability 【Benefits of Implementation】 - Improved production efficiency without disrupting line takt - Enhanced traceability through identification management at the circuit board level - Achieving stable printing quality through position correction and reading confirmation with image processing cameras

• Laser marker

In the telecommunications industry, product quality control and traceability are crucial. In particular, the accurate printing of serial numbers and manufacturing information is essential to ensure product reliability and enhance competitiveness in the market. Errors or erasures in printing can make it difficult to trace products and may undermine customer trust. Our CO2 laser marker for printed circuit board printing can be integrated into the SMT assembly line, allowing for board printing without stopping the line. 【Usage Scenarios】 * Printing of serial numbers, manufacturing dates, lot numbers, etc. * Strengthening traceability through identification management of circuit boards * Printing of two-dimensional codes (QR codes, DataMatrix codes, etc.) 【Benefits of Implementation】 * Improved production efficiency without disrupting line tact * Enhanced traceability through identification management at the board level * Stabilization of printing quality through image processing cameras

• Laser marker

In the medical device industry, quality control and traceability of products are extremely important. Especially for medical devices that relate to patient safety, a traceability system that can track the entire process from manufacturing to use and disposal is required. Accurate marking on printed circuit boards facilitates product identification and contributes to counterfeit prevention. Our CO2 laser marker for printed circuit board printing has been developed to enhance the traceability of medical devices and improve quality control. 【Usage Scenarios】 - Printing on circuit boards in the manufacturing process of medical devices - Product identification management and tracking - Recording and managing manufacturing history 【Benefits of Implementation】 - Strengthened traceability through identification management at the circuit board level - Increased information capacity through 2D code printing - Improved quality through reading confirmation with image processing cameras

• Laser marker

In the aerospace industry, accurate tracking of components is essential to ensure product quality and safety. Particularly for electronic circuit boards used in harsh environments, high durability and identifiability are required. Inadequate marking can lead to misidentification or inability to track components, potentially causing serious accidents. Our CO2 laser marker for printed circuit board printing can be integrated into SMT assembly lines, enabling board marking without stopping the line. 【Application Scenarios】 - Marking of electronic circuit boards for aircraft, spacecraft, satellites, etc. - Ensuring traceability in the component manufacturing process - Recording tracking information in quality control 【Benefits of Implementation】 - Strengthened traceability through identification management at the board level - Improved printing quality through position correction and reading confirmation with image processing cameras - Increased productivity through inline marking that does not disrupt line takt time

• Laser marker

In the automotive industry, quality control and traceability of products are crucial, especially for circuit boards such as electronic control units (ECUs). Identifying circuit boards during the manufacturing process is essential for the early detection of defects and for prompt responses during recalls. Our CO2 laser marker for printing on printed circuit boards can be integrated into the SMT assembly line, allowing for printing on circuit boards without stopping the line, thus enabling identification management on a board-by-board basis. This enhances traceability and contributes to the improvement of automotive parts quality. 【Usage Scenarios】 - Manufacturing of ECU circuit boards - Manufacturing of in-vehicle electronic device circuit boards - Management of parts traceability 【Benefits of Implementation】 - Improved production efficiency without disrupting line takt - Reliable identification through 2D codes - Enhanced quality management through strengthened traceability

• Laser marker

In the semiconductor manufacturing industry, ensuring product quality control and traceability is crucial. In particular, accurate marking on substrates is essential for tracking the manufacturing process and identifying products. Marking on metal substrates, which is difficult with CO2 lasers, is one of the challenges. Our hybrid (YVO4·Fiber) laser marker is ideal for laser marking on metal materials, such as aluminum substrates (aluminum heat dissipation substrates), which cannot be printed with CO2 lasers. 【Application Scenarios】 - Printing on aluminum substrates - Laser cleaning of substrate surfaces - Color printing on assembled resin connectors 【Benefits of Implementation】 - High-precision printing on metal substrates - Improved traceability - Increased efficiency in the manufacturing process

• Laser marker

In the energy management industry, product quality control and traceability are crucial. Particularly for metal components used in harsh environments, durable and highly visible marking is required. Laser marking is the optimal solution to meet these demands. Our hybrid (YVO4・Fiber) laser marker is ideal for marking metal materials, such as aluminum substrates, which cannot be marked with CO2 lasers. 【Application Scenarios】 - Marking on metal substrates - Laser cleaning of substrate surfaces - Color marking on mounted resin connectors 【Benefits of Implementation】 - High-precision marking on metal parts - Improved traceability - Enhanced product quality

• Laser marker

In the packaging industry, printing lot numbers is essential to ensure product traceability. In particular, printing on metal substrates and metal parts can be challenging with conventional CO2 lasers. If the print quality is low, the information may be unreadable, which can hinder the traceability system. Our hybrid (YVO4/Fiber) laser marker is ideal for laser printing on metal materials, such as aluminum substrates, that cannot be printed on with CO2 lasers. 【Application Scenarios】 - Printing lot numbers on metal packaging containers - Printing manufacturing lot numbers on metal parts - Printing for ensuring traceability 【Benefits of Implementation】 - Improved readability of lot numbers through clear printing on metal substrates - Enhanced accuracy of traceability systems - Mitigation of cost increases due to printing defects

• Laser marker

In the food industry, accurate labeling of expiration dates is essential to ensure consumer safety and trust. Printing on metal containers and packaging materials can pose challenges with traditional inkjet methods, such as ink peeling or smudging, leading to loss of visibility. Our hybrid (YVO4・Fiber) laser marker achieves high-precision and durable laser printing on metal substrates, including aluminum bases. This enhances the visibility of expiration date labels and strengthens food traceability. 【Usage Scenarios】 - Printing expiration dates and manufacturing dates on metal containers - Printing lot numbers and manufacturing information on food packaging materials - Quality control and inventory management for food products 【Benefits of Implementation】 - Improved visibility and reliability of labels due to enhanced durability of printing - Reduction in ink usage through direct printing on metal substrates - Enhanced food safety through strengthened traceability

• Laser marker

In the military field, traceability and durability of parts and products are extremely important. They must withstand use in harsh environments and retain identification information over long periods. Laser marking is an effective means to meet these requirements. Our hybrid (YVO4·Fiber) laser marker is specialized for marking on metal substrates, achieving high durability and visibility. It also accommodates metal materials, such as aluminum substrates, which are difficult to mark with CO2 lasers, ensuring traceability. 【Application Scenarios】 * Marking identification information on components of military electronic devices * Printing serial numbers on weapon parts * Marking on components of military vehicles 【Benefits of Implementation】 * High durability and visibility ensure long-term retention of identification information * Direct marking on metal substrates provides high traceability * Reliability to withstand use in harsh environments

• Laser marker

For tool owners, marking on metal parts is an important factor in product identification and quality control. Especially for tools that require durability, the durability of the marking itself becomes crucial. CO2 lasers enable marking on metal materials that are difficult to print on, enhancing traceability. 【Application Scenarios】 - Marking on aluminum substrates - Marking on metal substrates and laser cleaning of substrate surfaces - Color marking on mounted resin connectors 【Benefits of Implementation】 - High-precision marking on metal materials - Improved traceability - Compatibility with various metal parts

• Laser marker

In the jewelry industry, product quality labeling and brand logo engraving are important. Particularly for metal jewelry, engravings that are durable and highly visible are required. Traditional engraving methods may struggle with fine detail representation or have durability issues. Our hybrid (YVO4・Fiber) laser marker enables precise engraving on metal substrates, enhancing the value of jewelry. 【Application Scenarios】 - Engraving brand logos on precious metals - Engraving serial numbers on jewelry - Engraving designs on metal accessories 【Benefits of Implementation】 - Increased product value through high-precision engraving - Long-term quality assurance through durable engravings - Enhanced customer trust through secured traceability

• Laser marker

In the mold industry, accurate printing of model numbers is required to ensure product traceability. This is especially important for molds used in harsh environments, where the durability of the printing is crucial. It is essential to address metal materials that are difficult to print on with CO2 lasers. Our hybrid (YVO4·Fiber) laser marker enables printing on metal substrates, including aluminum substrates, ensuring reliable display of mold model numbers. 【Usage Scenarios】 - Printing model numbers on molds - Printing model numbers on metal parts 【Benefits of Implementation】 - Clear printing on metal substrates - Improved traceability - Enhanced durability of printing

• Laser marker

In the electronics industry, product quality control and traceability are crucial. In particular, marking on metal substrates such as aluminum substrates is essential to ensure product durability and reliability. Marking on metal materials, which is difficult with CO2 lasers, poses challenges in the manufacturing process. Our hybrid (YVO4·Fiber) laser marker addresses these challenges and achieves high-quality printing on metal substrates. 【Application Scenarios】 - Printing on aluminum substrates (aluminum heat dissipation substrates) - Color printing on mounted resin connectors 【Benefits of Implementation】 - Improved traceability through clear printing on metal substrates - Enhanced quality through laser cleaning of substrate surfaces - High reliability achieved with the KEYENCE hybrid laser marker "MD-X" series

• Laser marker