Horiuchi Electronics Co., Ltd. Product Lineup

In the mass production sites of the home appliance industry, there is a demand for the efficiency of the electronic component lead wire cutting process. The cutting of lead wires significantly impacts product quality and productivity. Manual cutting is time-consuming and labor-intensive, placing a heavy burden on workers. Additionally, low precision in the cutting surface can lead to assembly defects and performance degradation of the products. Our electronic component lead wire pre-cutting machine, "Cutman" Rotary, automates the lead wire cutting process and achieves efficiency. 【Usage Scenarios】 - Manufacturing lines for home appliances - Mass production of electronic components 【Benefits of Implementation】 - Reduction in work time - Alleviation of worker burden - Improvement in cutting precision - Increase in productivity

• Other mounting machines

In the automotive industry, the quality of electronic components is crucial to ensure product reliability. Particularly for automotive parts exposed to vibrations and temperature changes, the precise cutting of lead wires is essential for maintaining product performance. Improper cutting can lead to component failure or performance degradation. Cutman Rotary specializes in cutting lead wires and contributes to improving the reliability of automotive parts. 【Usage Scenarios】 - Automotive Electronic Control Units (ECUs) - In-vehicle electrical components - Automotive manufacturing lines 【Benefits of Implementation】 - Improved cutting accuracy of lead wires - Enhanced component quality - Increased production efficiency

• Other mounting machines

In the electronics manufacturing industry, there is a constant demand for improvements in product quality and productivity. The cutting of lead wires is an important element in the assembly process, but manual work can be time-consuming and labor-intensive, potentially hindering efficiency. The Cutman Rotary was developed to address this challenge. 【Usage Scenarios】 * Sites in electronics manufacturing where lead wire cutting is necessary * Companies looking to improve production efficiency 【Benefits of Implementation】 * Reduction in work time * Increase in productivity * Cost savings

• Other mounting machines

In the solar power generation industry, the long-term reliability of systems is extremely important. In particular, the handling of lead wires at the connection points of solar panels and related equipment greatly affects the stability of electrical connections, which can lead to system failures or performance degradation. Manual cutting of lead wires is prone to dimensional variations and decreased work efficiency, which can compromise reliability. A cutting machine improves connection reliability by accurately cutting lead wires to a consistent size, contributing to the stable operation of solar power generation systems. 【Usage Scenarios】 - Cutting lead wires in solar panel manufacturing - Handling lead wires for related equipment such as power conditioners - Installation of solar power generation systems at electrical construction sites 【Benefits of Implementation】 - Improved connection reliability through uniform cutting dimensions of lead wires - Reduced work time and increased efficiency - Cost reduction through the reduction of defective products

• Other mounting machines

In the aerospace industry, reducing the weight of components is essential for improving performance. Minimizing unnecessary parts of lead wires and achieving overall weight reduction contributes to better fuel efficiency and enhanced flight performance. Manual cutting of lead wires can be time-consuming and labor-intensive, potentially decreasing work efficiency. The lead wire pre-cutting machine "Cutman" Standard contributes to weight reduction and improved work efficiency by cutting lead wires of electronic components to a consistent size. 【Usage Scenarios】 - Manufacturing of aircraft and spacecraft - Production of electronic devices requiring weight reduction - Miniaturization and lightweighting of components 【Benefits of Implementation】 - Reduces waste in lead wires and contributes to overall weight reduction of components - Streamlines manual cutting tasks - Shortens work time and reduces costs

• Other mounting machines

In the game console manufacturing industry, miniaturization of products is always required. The cutting of lead wires before circuit board assembly is often done manually, leading to decreased work efficiency and variations in dimensions. The precision of lead wire cutting affects the reliability and miniaturization of the product. Cutters solve these issues by cutting lead wires to a consistent size, thereby supporting the miniaturization of game consoles. 【Usage Scenarios】 - Cutting lead wires before component assembly on game console circuit boards - Prototyping and mass production of compact game consoles - Space-saving work environments 【Benefits of Implementation】 - Increased efficiency in lead wire cutting operations - Improved accuracy of cut dimensions - Effective utilization of workspace

• Other mounting machines

In the audio equipment manufacturing industry, precise processing of components is required to ensure product quality and reliability. This is especially important for audio devices that are susceptible to vibrations and temperature changes, where accurate cutting of lead wires is crucial. Manual cutting of lead wires can lead to dimensional variations and decreased work efficiency, potentially affecting product quality. The lead wire pre-cutting machine "Cutman" Standard addresses these challenges by cutting lead wires to a consistent size. 【Usage Scenarios】 - Cutting lead wires before mounting on circuit boards for audio equipment - Component processing within factories - Supplying components to subcontractors 【Benefits of Implementation】 - Increased efficiency in lead wire cutting operations - Improved product quality - Reduced working time

• Other mounting machines

In the power supply unit manufacturing industry, there is a trend towards miniaturization and higher density of products, leading to a demand for space-saving component mounting. The manual cutting of lead wires involves time losses and risks of mounting defects due to dimensional variations. The lead wire pre-cutting machine "Cutman" improves work efficiency and contributes to space-saving by cutting lead wires to a consistent size before mounting onto printed circuit boards. [Usage Scenarios] - Lead wire cutting operations on power supply unit production lines - Design and manufacturing sites aiming for space-saving - Moving away from manual lead wire cutting [Benefits of Implementation] - Increased efficiency in lead wire cutting operations - Improved mounting accuracy - Effective use of workspace

• Other mounting machines

In the lighting fixture manufacturing industry, there is a constant demand for improvements in product quality and production efficiency. In particular, the manual cutting of lead wires for electronic components can lead to mistakes and time losses, which may result in decreased yield. Uneven lead wire lengths or misaligned cutting positions can also cause assembly defects or operational failures. The lead wire pre-cutting machine "Cutman" Standard addresses these challenges by accurately cutting lead wires for electronic components to a specified length. [Usage Scenarios] - PCB assembly process for lighting fixtures - Assembly process for LED lighting fixtures - Lead wire cutting operations for electronic components [Effects of Implementation] - Increased efficiency in lead wire cutting operations - Improved yield - Reduced working time - Stabilized quality

• Other mounting machines

In automation lines utilizing industrial robots, the lead wire cutting process for electronic components can become a bottleneck for efficiency. Manual lead wire cutting requires time and effort, potentially leading to decreased productivity. Additionally, variations in cutting dimensions can cause implementation defects. The lead wire pre-cutting machine "Cutman" Standard achieves automation of the lead wire cutting process by collaborating with robot component supply, significantly contributing to improved production efficiency. 【Usage Scenarios】 - Integration into electronic component assembly lines - Collaboration with robot component supply - Space-saving 【Effects of Implementation】 - Increased productivity through automation of the lead wire cutting process - Improved assembly quality through uniform cutting dimensions - Reduced working time and labor costs

• Other mounting machines

In the telecommunications equipment manufacturing industry, the miniaturization and high performance of products demand precision and speed in component mounting. Manual cutting of lead wires can decrease work efficiency and become a bottleneck in productivity. Our lead wire pre-cutting machine, "Cutman," contributes to the efficiency of the mounting process by cutting the lead wires of solder dip components to a specified length. [Usage Scenarios] - Mounting process for circuit boards in telecommunications equipment - Lead wire cutting tasks in prototype and small-scale production - Utilization in home-based work [Benefits of Implementation] - Increased efficiency in lead wire cutting tasks - Reduction in work time - Stabilization of work quality

• Other mounting machines

In the medical device manufacturing industry, the quality and safety of products are of utmost importance. The cutting of lead wires for electronic components is a critical process that directly affects product reliability. Manual cutting of lead wires can lead to variations in dimensions and decreased work efficiency, potentially becoming a quality control issue. The lead wire pre-cutting machine "Cutman" Standard addresses these challenges by cutting the lead wires of solder dip components to a consistent size. [Usage Scenarios] - Lead wire cutting operations in the manufacturing process of medical devices - Component inspection in quality control departments - Improvement of work efficiency on the manufacturing floor [Effects of Implementation] - Quality improvement through uniform cutting dimensions of lead wires - Reduction of work time and increased productivity - Alleviation of the burden on workers

• Other mounting machines

In the automotive parts manufacturing industry, there is a constant demand for reducing the manufacturing costs of components. In particular, the manual cutting of lead wires for electronic components incurs significant time and labor costs, contributing to increased expenses. If the cut dimensions of the lead wires are inconsistent, it can lead to assembly defects and potentially result in defective products. The lead wire pre-cutting machine "Cutman" Standard automates the manual cutting of lead wires, contributing to cost reduction. 【Usage Scenarios】 - Cutting lead wires for electronic components in automotive parts manufacturing factories - Cutting lead wires before mounting on printed circuit boards - Supplying parts for home-based work 【Benefits of Implementation】 - Reduction of time and labor costs associated with lead wire cutting - Decrease in assembly defects due to uniform cut dimensions - Improvement in work efficiency - Reduction of defective products

• Other mounting machines

In the home appliance manufacturing industry, precise processing of components is required to enhance product quality and reliability. Particularly in the cutting of lead wires for electronic components, variations in dimensions can lead to assembly defects and performance degradation. The Cutman addresses the challenges of manual lead wire cutting and enables cutting to consistent dimensions. 【Usage Scenarios】 - Circuit board assembly processes for home appliances - Lead wire cutting tasks for electronic components - Precision improvement in quality control departments 【Effects of Implementation】 - Improved accuracy in lead wire cutting - Reduced work time - Decreased number of defective products

• Other mounting machines

In the electronic components manufacturing industry, there is always a demand for improving product quality and productivity. Manual lead wire cutting is time-consuming and labor-intensive, which can increase the burden on workers and lead to decreased work efficiency. Variability in lead wire cutting dimensions can also cause assembly defects. The lead wire pre-cutting machine "Cutman" Standard performs lead wire cutting tasks easily and accurately, enhancing work efficiency. 【Usage Scenarios】 - Pre-cutting lead wires for radial-type electronic components - Cutting lead wires for solder dip components - Cutting lead wires for components with various pin arrangements 【Benefits of Implementation】 - Reduces the time and effort required for manual lead wire cutting - Suppresses variability in lead wire cutting dimensions, reducing assembly defects - Alleviates the burden on workers and improves productivity

• Other mounting machines

In inventory management within the logistics industry, traceability of products and accurate information management are essential. In particular, the identification of individual products and the linking of corresponding information are crucial for reducing shipping errors and inventory discrepancies, thereby achieving efficient management. Our CO2 laser marker for reading codes on the back of printed circuit boards automates the identification of individual products and the linking of information by reading the two-dimensional codes printed on the back and printing them on the surface. This enhances accuracy and efficiency in inventory management. 【Usage Scenarios】 - Management of product inbound and outbound - Tracking of inventory - Prevention of shipping errors 【Benefits of Implementation】 - Improved accuracy in inventory management - Enhanced work efficiency - Strengthened traceability

• Laser marker

Our CO2 laser marker for circuit boards is an inline system designed to optimize operations in global manufacturing environments. It comes standard with a globally compatible interface that includes display options in Japanese, English, and Chinese. This eliminates language barriers and strongly supports the establishment of borderless production lines both domestically and internationally. It enables smooth overseas expansion and stable operations at local sites, contributing to the elimination of human errors and the establishment of advanced quality control systems. 【Usage Scenarios】 - Marking of material information, warnings, and serial numbers on toys - Printing of two-dimensional codes: QR codes, DataMatrix, Micro QR - Expansion to global production sites: Common lines that require language switching between Japanese, English, and Chinese for domestic and international operations 【Benefits of Implementation】 - Acceleration of global expansion: A common operating interface allows for smooth setup of domestic and international sites - Improvement of operational accuracy: Local staff can operate in their native language, reducing the risk of setting errors and misoperations.

• Laser marker

Our CO2 laser marker for circuit boards is an inline system designed to optimize operations in global manufacturing environments. It comes standard with a globally compatible interface featuring three languages: Japanese, English, and Chinese. This eliminates language barriers and strongly supports the establishment of borderless production lines, both domestically and internationally. It enables smooth overseas expansion and stable operations at local sites. It helps eliminate human errors and contributes to the establishment of advanced quality control systems. 【Usage Scenarios】 - Marking of circuit board serial numbers, manufacturing lots, and date information - Printing of two-dimensional codes: QR codes, DataMatrix - Deployment to global production sites: Common lines that require language switching between Japanese, English, and Chinese for domestic and international operations 【Benefits of Implementation】 - Acceleration of global expansion: A common operational interface allows for smooth startup of domestic and international sites - Improved operational accuracy: Local staff can operate in their native language, reducing the risk of setting errors and misoperations.

• Laser marker

In the medical device industry, individual identification and traceability are essential to ensure product quality and safety. Accurate information management in the manufacturing process is crucial for enhancing product reliability and enabling swift recall responses in case of emergencies. Our CO2 laser marker for circuit boards achieves reliable individual identification over the long term and strengthens traceability through clear and durable marking. 【Usage Scenarios】 - Marking serial numbers, manufacturing lots, and date information on medical device components - Process management and tracking through two-dimensional code printing - Use on common lines at global production sites 【Benefits of Implementation】 - Strengthened traceability: Reliable individual identification over the long term - Improved operational accuracy: Operations can be conducted in the native language - Establishment of quality control systems: Reduced risk of human error

• Laser marker

By accurately marking manufacturing information and serial numbers on parts, it becomes possible to quickly identify causes and implement measures in the event of quality issues. Our CO2 laser marker for circuit boards is an inline system designed to optimize operations in global manufacturing environments. It comes standard with a globally compatible interface that includes displays in Japanese, English, and Chinese. This eliminates language barriers and strongly supports the establishment of borderless production lines both domestically and internationally. It enables smooth overseas expansion and stable operations at local sites, contributing to the elimination of human errors and the establishment of advanced quality control systems. 【Usage Scenarios】 - Marking circuit board serial numbers, manufacturing lots, and date information - Printing two-dimensional codes: QR codes, DataMatrix printing - Deployment to global production sites 【Benefits of Implementation】 - Acceleration of global expansion: A common operating interface allows for smooth startup of domestic and international sites. - Improvement in operational accuracy: Local staff can operate in their native language, reducing the risk of setting errors and misoperations.

• Laser marker

In the electronics industry, component labeling is crucial for ensuring product quality control and traceability. In particular, the identification of components during the manufacturing process is a key factor that influences product reliability. Incorrect marking can lead to product defects or assembly errors. Our CO2 laser marker for circuit boards is an inline system designed to optimize operations in global manufacturing environments. It comes standard with a global interface that includes displays in three languages: Japanese, English, and Chinese. This eliminates language barriers and strongly supports the establishment of borderless production lines, both domestically and internationally. It enables smooth overseas expansion and stable operations at local sites. It helps eliminate human errors and contributes to the establishment of advanced quality control systems. 【Usage Scenarios】 - Two-dimensional code printing: QR code, DataMatrix printing - Deployment to global production sites 【Benefits of Implementation】 - Acceleration of global expansion: A common operating interface allows for smooth startup of domestic and international sites. - Improved operational accuracy: Local staff can operate in their native language, reducing the risk of setting errors and misoperations.

• Laser marker

Our CO2 laser marker for circuit boards is an inline system designed to optimize operations in global manufacturing environments. It comes standard with a global interface that supports three languages: Japanese, English, and Chinese. This eliminates language barriers and strongly supports the establishment of borderless production lines, both domestically and internationally, enabling smooth overseas expansion and stable operations at local sites. It contributes to the elimination of human errors and the establishment of advanced quality control systems. 【Usage Scenarios】 - Marking of circuit board serial numbers, manufacturing lots, and date information - Printing of two-dimensional codes: Process management through high-resolution printing of QR codes, DataMatrix, etc. - Expansion to global production sites: Common lines that require language switching between Japanese, English, and Chinese for domestic and international operations 【Benefits of Implementation】 - Acceleration of global expansion: A common operating interface allows for smooth startup of domestic and international sites - Strengthening of traceability: Clear and durable printing enables reliable long-term individual identification - Improvement of operational accuracy: Local staff can operate in their native language, reducing the risk of setting errors and misoperations.

• Laser marker

In the security industry, it is important to ensure the authenticity of products and prevent counterfeiting. Particularly in electronic devices, traceability of components and tamper-proofing are required. Our CO2 laser marker for readable boards on the back side reads the two-dimensional codes printed on the back of the boards and prints information on the surface, thereby enhancing product traceability and making counterfeiting difficult. 【Usage Scenarios】 - Manufacturing of electronic devices - Tracking management of components - Counterfeit prevention measures 【Benefits of Implementation】 - Assurance of product authenticity - Reduction of counterfeiting risks - Strengthening of traceability

• Laser marker

In the solar power generation industry, accurate identification and tracking of individual panels are required from manufacturing to installation and maintenance. Especially in large-scale solar power plants, high traceability is essential to identify the causes of panel failures or performance degradation and respond quickly. Our CO2 laser marker for readable substrates on the back of panels reads the two-dimensional codes printed on the back and prints information on the surface, achieving advanced traceability management that integrates both sides. This prevents misidentification of panels and contributes to efficient process management and quality improvement. 【Usage Scenarios】 - Individual identification on solar panel manufacturing lines - Linking installation locations of panels - Management of maintenance history 【Effects of Implementation】 - Prevention of panel misidentification - Strengthening of traceability - Streamlining of process management

• Laser marker

In the aerospace industry, high quality and traceability are essential in parts management. Misuse or management errors of parts can lead to serious accidents. Our CO2 laser marker for readable substrates enables individual identification of parts and accurate traceability, addressing these challenges. 【Usage Scenarios】 - Marking on aircraft and spacecraft parts - Traceability management in the manufacturing process of parts - Inventory management of parts 【Benefits of Implementation】 - Improved safety by preventing misidentification of parts - Enhanced quality control through strengthened traceability - Increased efficiency in process management

• Laser marker

In the pharmaceutical industry, quality control and traceability of products are extremely important. In particular, the accurate printing of lot numbers is essential for quick responses during product recalls or when quality issues arise. Incorrect printing of lot numbers can increase risks to patients and potentially damage the company's reputation. Our CO2 laser marker for reading codes on the back of substrates addresses these challenges by reading the two-dimensional codes printed on the back and accurately printing the lot numbers on the surface. 【Usage Scenarios】 - Support for QR codes, DataMatrix, Micro QR codes, barcodes, etc. - Position correction, front and back identification, and reading confirmation through high-precision image processing 【Benefits of Implementation】 - Prevents incorrect printing of lot numbers by basing surface printing on the individual information on the back - Achieves accurate lot number traceability management in the implementation process

• Laser marker

In the medical device industry, traceability is extremely important to ensure the quality and safety of products. The ability to track individual products throughout the entire manufacturing process allows for quick identification of causes when issues arise and enables product recalls. Our CO2 laser marker for readable substrates on both sides achieves advanced traceability by linking information printed on both sides of the substrate, thereby enhancing quality control in medical device manufacturing. 【Application Scenarios】 - Printing of QR codes, DataMatrix, barcodes, etc., on medical device substrates - Position correction, front and back identification, and reading confirmation using image processing cameras - Information printing on the surface through back-side code reading 【Benefits of Implementation】 - Elimination of substrate mix-up errors - Accurate individual tracking management in the assembly process

• Laser marker

In the automotive parts industry, ensuring product quality and traceability is essential. Errors in the manufacturing process of parts and the subsequent lack of traceability can lead to significant quality issues and undermine customer trust. Our CO2 laser marker for printed circuit board printing can be integrated into the SMT assembly line, enabling on-the-fly printing without stopping the line. This contributes to efficiency and quality improvement in process management while maintaining tact time. Additionally, as an optional feature, it supports the processing of "reading a two-dimensional code printed on the back and printing it on the front." This automates the data linking after flipping the board, enabling advanced traceability management that integrates both sides. [Usage Scenarios] Versatile code printing: Support for QR codes, DataMatrix, Micro QR codes, barcodes, etc. High-precision image processing: Position correction, front and back identification, and reading confirmation using image processing cameras. [Benefits of Implementation] Prevention of misalignment: By printing on the front based on the individual information on the back, it eliminates the risk of mixing up circuit boards. Enhanced traceability: Achieves accurate individual tracking management in the assembly process.

• Laser marker

In the semiconductor manufacturing industry, wafer traceability management is crucial. In particular, individual identification and tracking during the manufacturing process are essential for quality control and yield improvement. Incorrect identification or tracking errors of wafers can lead to the occurrence of defective products or delays in the process. Our CO2 laser marker for readable substrates on the back side can be integrated into the SMT assembly line, achieving substrate printing without stopping the line (on-the-fly printing). This contributes to efficiency and quality improvement in process management while maintaining tact time. Additionally, as an optional feature, it supports the processing of "reading the two-dimensional code printed on the back and printing it on the front." This automates the data linking after the substrate is flipped, enabling advanced traceability management that integrates both sides. 【Usage Scenarios】 Versatile code printing: Support for QR codes, DataMatrix, Micro QR codes, barcodes, etc. 【Benefits of Implementation】 Prevention of misidentification: By printing the front side based on the individual information on the back, it eliminates mistakes in substrate mix-ups. Strengthening traceability: Achieves accurate individual tracking management in the assembly process.

• Laser marker

In the electronics manufacturing industry, ensuring product quality control and traceability is crucial. In particular, tracking components is essential for identifying defective products and improving manufacturing processes. Mistakes such as mixing up circuit boards or errors in data linkage can not only undermine product reliability but also lead to increased costs. Our CO2 laser marker for printing on printed circuit boards can be integrated into the SMT assembly line, achieving board printing without stopping the line (on-the-fly printing). This contributes to efficiency and quality improvement in process management while maintaining takt time. Additionally, as an optional feature, it supports the processing of "reading a two-dimensional code printed on the back and printing it on the front." This automates data linkage after flipping the board, enabling advanced traceability management that integrates both sides. [Usage Scenarios] Versatile code printing: Supports QR codes, DataMatrix, Micro QR codes, barcodes, etc. [Benefits of Implementation] Prevention of misidentification: By performing surface printing based on the individual information on the back, it eliminates mistakes in mixing up circuit boards. Enhanced traceability: Achieves accurate individual tracking management in the assembly process.

• Laser marker

In the measurement instrument industry, managing calibration information is crucial to ensure the accuracy and reliability of products. By making calibration records traceable, it contributes to maintaining product quality, investigating the causes of defects when they occur, and gaining customer trust. Our PCB traceability printing CO2 laser marker enhances traceability by printing calibration information on printed circuit boards, supporting quality control of measurement instruments. 【Usage Scenarios】 - Printing calibration information for measurement instruments (lot number, serial number, calibration date, etc.) - Proof of calibration - Management of calibration history 【Benefits of Implementation】 - Improved traceability of calibration information - Assurance of product quality - Increased reliability from customers - Streamlining of calibration work

• Laser marker

In the robotics industry, it is important to accurately record and manage the operational history of products. In particular, traceability of parts is essential for identifying the causes of failures and improving maintenance efficiency. Our CO2 laser marker for board traceability printing enables the tracking of operational history by printing on robot circuit boards and electronic components, supporting rapid responses in the event of issues. 【Use Cases】 - Printing lot numbers, manufacturing information, dates, etc., on robot control boards - Printing on various components such as robot arms and sensors - Recording maintenance history and replacement parts 【Benefits of Implementation】 - Faster problem-solving through the visualization of operational history - Increased efficiency in parts replacement and maintenance - Improved robot uptime

• Laser marker

In the defense industry, ensuring product traceability is essential for protecting confidential information and maintaining product reliability. By strictly managing each stage from production to disposal, it is necessary to reduce the risks of unauthorized access and information leakage, ensuring the safety of products related to national security. Our double-sided printed circuit board CO2 laser marker enhances traceability and contributes to confidentiality through printing on printed circuit boards and electronic components. [Usage Scenarios] - Printing lot numbers, manufacturer information, dates, etc., on circuit boards for defense-related equipment - Printing in highly confidential production factories or lines - Printing implementation information for used components [Benefits of Implementation] - Protection of confidential information through improved traceability - Increased product reliability and reduced risk of unauthorized access - Gaining trust from relevant parties - Minimizing risks through rapid identification of causes and responses in the event of problems

• Laser marker

In the energy industry, compliance with safety standards is the top priority, and ensuring product traceability is essential. For products such as power generation equipment and transmission systems, which require high safety and reliability, accurate information management at each stage from manufacturing to maintenance is crucial. Our substrate traceability printing CO2 laser marker enhances traceability through printing on printed circuit boards and electronic components, supporting compliance with safety standards. [Usage Scenarios] - Printing lot numbers, manufacturing information, dates, etc., on control boards related to safety - Printing component mounting information on the production line - Printing to ensure product traceability [Benefits of Implementation] - Improved compliance with safety standards - Enhanced product quality management and reliability - Rapid identification and response to issues when they arise - Gaining consumer trust

• Laser marker

In the industrial machinery sector, quality control and traceability of parts are crucial. Especially as product safety and reliability are demanded, accurate information management of components is essential. Our substrate traceability printing CO2 laser marker enhances traceability and strengthens quality control by printing on printed circuit boards and electronic components. 【Usage Scenarios】 - Printing lot numbers, producer information, dates, etc., on printed circuit boards - Printing information about production factories and lines - Printing implementation information of used components 【Benefits of Implementation】 - Strengthened quality control through improved traceability - Enhanced product reliability - Gaining consumer trust - Rapid identification of causes and responses in the event of issues

• Laser marker

In the home appliance industry, accurate recording of manufacturing dates is required for quality control of products and for prompt responses in case of emergencies. Especially as the long-term safety and reliability of products are emphasized, accurate printing of manufacturing dates is essential for ensuring product traceability. Our dual-sided printing CO2 laser marker improves traceability by printing manufacturing dates on printed circuit boards. 【Usage Scenarios】 - Printing manufacturing dates on printed circuit boards - Date printing on production lines - Quality control of products 【Benefits of Implementation】 - Strengthened quality control through improved traceability - Increased reliability of products - Rapid identification of causes and responses in case of issues

• Laser marker

In the telecommunications industry, the reliability and quality of products are crucial, and ensuring traceability is essential. By securing the traceability of products, it becomes possible to enhance quality management, improve safety, and respond quickly when issues arise. Particularly as consumer interest in the performance of communication devices increases, accurate information management is indispensable. Our double-sided printed circuit board CO2 laser marker enhances traceability by printing on printed circuit boards and electronic components. 【Usage Scenarios】 - Printing lot numbers, producer information, dates, etc., on printed circuit boards - Printing information about production factories or lines - Printing implementation information for used components 【Benefits of Implementation】 - Strengthened quality management through improved traceability - Increased product reliability - Gaining consumer trust - Rapid identification of causes and responses when issues occur

• Laser marker

In the semiconductor industry, ensuring traceability in the wafer manufacturing process is crucial. By accurately printing the wafer ID, it becomes possible to track the manufacturing process, manage quality, and detect defects early. Particularly as fine processing technology advances, precise ID management significantly affects product yield and reliability. Our substrate traceability printing CO2 laser marker enhances traceability by printing IDs on wafers. [Usage Scenarios] - Printing lot numbers, manufacturing information, dates, etc., on wafers - Printing wafer IDs on the manufacturing line - Reading IDs during the inspection process [Benefits of Implementation] - Strengthened quality management through improved traceability - Increased efficiency in the manufacturing process - Early detection and response to defects - Enhanced product reliability

• Laser marker

In the aerospace industry, traceability of parts is extremely important. To ensure the safety and reliability of products, accurate information management of each part is required from manufacturing to operation and maintenance. The precise printing of serial numbers is essential for identifying parts, quality control, and rapid response in the event of issues. Our double-sided printing CO2 laser marker for printed circuit boards enhances traceability by printing serial numbers on printed circuit boards and electronic components, meeting the stringent demands of the aerospace sector. 【Usage Scenarios】 - Printing serial numbers, manufacturer information, dates, etc., on printed circuit boards - Printing in production factories or lines - Printing implementation information of used parts 【Benefits of Implementation】 - Strengthened quality control through improved traceability - Increased product reliability - Gaining consumer trust - Rapid identification of causes and responses in the event of issues

• Laser marker

In the medical device industry, product safety is the top priority, and strict traceability management through lot numbers is essential. Ensuring the traceability of products from manufacturing to distribution and use is required to maintain thorough quality control, respond quickly to issues, and protect patient safety. Our substrate traceability printing CO2 laser marker enhances traceability by printing lot numbers on medical device substrates, addressing these challenges. 【Usage Scenarios】 - Printing lot numbers, manufacturing dates, and manufacturer information on medical device substrates - Lot management on the production line - Tracking of components 【Benefits of Implementation】 - Improved traceability through lot number printing - Strengthened quality control - Increased product reliability - Rapid identification and response to issues when they arise

• Laser marker

In the automotive industry, quality control and traceability of parts are crucial. By tracking each stage from manufacturing to disposal, it enables quick responses to quality issues and efficient handling during recalls. The reliability of parts is directly linked to the safety of vehicles, necessitating accurate information management. Our CO2 laser marker for board traceability printing enhances traceability by printing on printed circuit boards and electronic components. [Usage Scenarios] - Printing lot numbers, manufacturing information, dates, etc., on automotive parts - Tracking parts in the supply chain - Information management in quality control departments [Benefits of Implementation] - Strengthened quality management through improved traceability of parts - Enhanced product reliability - Quick identification of causes and responses when issues arise

• Laser marker

In the electronic equipment manufacturing industry, product quality control and traceability are crucial. In particular, accurate printing of model numbers is essential for product identification, inventory management, and streamlining the manufacturing process. Incorrect printing of model numbers can lead to mis-shipment of products and quality issues. Our PCB traceability printing CO2 laser marker enables precise printing of model numbers on printed circuit boards and electronic components, enhancing traceability. [Usage Scenarios] - Printing of lot numbers, producer information, dates, etc., on printed circuit boards - Printing for production factories and lines - Printing of implementation information for used components [Benefits of Implementation] - Strengthened quality control through improved traceability - Enhanced product reliability - Gaining consumer trust - Rapid identification of causes and response in case of issues

• Laser marker

As automation utilizing industrial robots advances, there is a growing demand for the efficiency of the lead wire cutting process for electronic components. Manual lead wire cutting not only incurs labor costs and time but also raises concerns about quality due to dimensional variations. The Cutman addresses these challenges by accurately cutting lead wires to a specified dimension, enabling smooth integration into automated lines. 【Usage Scenarios】 - Robot-assisted circuit board assembly processes - Automation of lead wire cutting 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 medical device industry, precise processing of components is essential to ensure product safety and reliability. In particular, the cutting of lead wires for electronic components is a critical factor in the assembly process, and variations in dimensions can lead to product malfunctions or performance degradation. The cut man addresses these challenges by accurately cutting lead wires to a consistent size. 【Application Scenarios】 - PCB assembly process for medical devices - 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 - Enhanced product reliability

• Other mounting machines

In the telecommunications equipment industry, there is a demand for miniaturization of products and improvement in reliability. 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 degradation. A cutting machine addresses these challenges by accurately cutting lead wires to a consistent size, thereby supporting the manufacturing of miniaturized telecommunications equipment. 【Usage Scenarios】 - Assembly process of telecommunications equipment circuit boards - Cutting work of lead wires for electronic components - 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