IZUSHI Product Lineup

In the semiconductor industry, maintaining the cleanliness of the manufacturing process is essential for improving product quality and yield. The deterioration of coolants and cleaning solutions can lead to the generation of fine particles and contamination, which can decrease cleanliness. Nano Boosters contribute to maintaining cleanliness by suppressing the deterioration of water-soluble coolants and enhancing the permeability of cleaning solutions. 【Usage Scenarios】 - Coolants for semiconductor manufacturing equipment - Cleaning solutions in the cleaning process 【Effects of Implementation】 - Prolonged lifespan of coolants - Improved cleaning performance - Maintenance of cleanliness

• Other environmental equipment

In the precision machinery industry, it is essential to suppress the occurrence of burrs after processing and improve product quality. The deterioration of coolant can promote the generation of burrs and potentially reduce product accuracy. Nano Booster helps to inhibit coolant degradation and enhance cleaning properties, thereby suppressing burr formation and contributing to improved product quality. 【Usage Scenarios】 - Suppression of burr generation in machining - Enhancement of cleaning power in the cleaning process - Extension of coolant lifespan 【Effects of Implementation】 - Improvement in product quality - Cost reduction through decreased coolant replacement frequency - Increased machine operating rate

• Other environmental equipment

In the machine tool industry, the increased frequency of coolant replacement due to spoilage and the decrease in cleaning performance are significant challenges. The deterioration of coolant can lead to reduced machining accuracy and shortened tool life. To address these issues, a nano booster can be helpful. 【Application Scenarios】 - Machining machines - Cleaning machines - Heat exchangers prone to clogging 【Benefits of Implementation】 - Extended coolant lifespan - Improved cleaning performance - Cost reduction

• Other environmental equipment

In the mold industry, tool wear and deterioration significantly impact production efficiency. The degradation of coolant is one of the causes that shorten tool life and reduce machining accuracy. Nano Boosters help suppress coolant degradation and contribute to extending tool life. The generation of nanobubbles improves the cleaning ability of the coolant, which can also enhance the quality of the machined surface. This allows for both cost reduction and quality improvement in mold processing. 【Application Scenarios】 - Mold processing machines - Coolant degradation countermeasures - Pipe clogging countermeasures for heat exchangers 【Effects of Implementation】 - Extended tool life - Improved machining accuracy - Cost reduction

• Other environmental equipment

In the aerospace industry, high precision in machining is required. The deterioration of coolant can negatively impact machining accuracy. Degraded coolant can reduce cutting performance and compromise product quality. Nano Boosters help suppress coolant degradation and maintain stable machining accuracy. 【Application Scenarios】 - Precision machining of aircraft components - Manufacturing of rocket engines - Production of parts for space exploration vehicles 【Benefits of Implementation】 - Extended coolant lifespan - Improved machining accuracy - Cost reduction

• Other environmental equipment

In the automotive industry, there is a constant demand for reducing manufacturing costs. In particular, decreasing the frequency of coolant replacement used in cutting processes can lead to significant cost savings. The deterioration of coolant is a major factor that increases replacement frequency. Nano Booster suppresses coolant degradation and achieves a longer lifespan. This helps reduce disposal costs and the time and effort required for replacement, contributing to overall cost reduction. 【Usage Scenarios】 - Cutting processing of automotive parts - Measures against coolant degradation in processing machines - Prevention of clogging in heat exchangers 【Effects of Implementation】 - Reduction in coolant replacement frequency - Reduction in disposal costs - Shortening of work time

• Other environmental equipment

In the mining industry, improving the durability of machinery in harsh environments is crucial. The degradation of coolant can lead to machine failures and performance declines, potentially resulting in operational stoppages and increased costs. Coolant Nano Booster supports the stable operation of mining machinery by suppressing coolant deterioration. 【Application Scenarios】 - Excavators - Crushers - Ore processing equipment 【Benefits of Implementation】 - Reduced frequency of coolant replacement - Extended machine lifespan - Lower maintenance costs

• Other environmental equipment

In the semiconductor manufacturing industry, maintaining the quality of coolants in precision machining is a crucial factor that influences product quality and yield. The deterioration of coolants can lead to reduced machining accuracy and shortened tool life, potentially resulting in an increase in defective products and higher costs. Coolant Nano Booster addresses these challenges by suppressing coolant degradation, contributing to quality improvement in semiconductor manufacturing. 【Application Scenarios】 - Precision grinding - Cutting processes - Cleaning processes 【Effects of Implementation】 - Improved machining accuracy - Extended tool life - Reduction in defective products

• Other environmental equipment

In the shipbuilding industry, the management of coolants in metal processing significantly impacts costs and work efficiency. The deterioration of coolants shortens tool life and increases replacement frequency, ultimately leading to higher costs. Additionally, degraded coolants can worsen the working environment and potentially increase health risks for employees. Coolant Nano Booster suppresses coolant deterioration and addresses these challenges. 【Application Scenarios】 - Measures against coolant deterioration in metal processing - Integration into piping for machine tools, aqueous cleaning solutions, cooling water, etc. 【Effects of Implementation】 - Reduced coolant replacement frequency, leading to cost savings - Improved working environment - Extended tool life

• Other environmental equipment

In the aerospace industry, high precision and reliability in parts processing are required. The deterioration of coolant can reduce processing accuracy and negatively impact the quality of parts. Especially for components related to aircraft safety, even minor defects are unacceptable. Coolant Nano Booster helps improve product reliability by suppressing coolant degradation and enhancing the processing environment. 【Usage Scenarios】 - Precision processing of aircraft components - Processing of space development-related parts - Processing environments where quality control is emphasized 【Benefits of Implementation】 - Extended coolant lifespan - Improved processing accuracy - Enhanced product reliability

• Other environmental equipment

In the machine tool industry, quality control of coolant is essential for maintaining machining accuracy. The deterioration of coolant can lead to a decrease in machining precision, a reduction in tool life, and even machine failures. Coolant Nano Booster supports stable operation of machine tools and high-quality machining by suppressing coolant degradation. 【Usage Scenarios】 - Metal machining with machine tools - Measures against coolant odor - Reduction of coolant replacement frequency 【Benefits of Implementation】 - Improvement in machining accuracy - Extension of tool life - Increased machine operating rate

• Other environmental equipment

In the railway industry, ensuring safety is paramount, making the durability and reliability of components extremely important. Parts that can withstand the stresses and wear that occur during vehicle operation are required. Particularly for critical components such as wheels and rails, even minor surface scratches and irregularities can lead to fatigue failure and abnormal noises, potentially compromising safety. ECOROLL roller burnishing addresses these challenges by uniformly finishing the surface after machining and improving surface roughness. 【Application Scenarios】 - Surface finishing of wheels - Surface finishing of rails - Surface finishing of other critical components of railway vehicles 【Benefits of Implementation】 - Improved durability of components - Reduced abnormal noises - Enhanced safety

• Other abrasives

In the shipbuilding industry, high corrosion resistance is required as a countermeasure against corrosion in marine environments. Particularly for hulls and structural components, the quality of surface treatment is a crucial factor that affects product lifespan. Conventional grinding processes tend to leave fine irregularities on the surface, which can lead to corrosion. ECOROLL roller burnishing improves corrosion resistance by creating a uniform surface, thereby enhancing product reliability. 【Application Scenes】 - Hull plates - Structural components - Finishing of welds - Parts requiring corrosion resistance 【Effects of Implementation】 - Improved corrosion resistance - Extended product lifespan - Cost reduction through process consolidation from grinding operations - Quality improvement through enhanced surface roughness

• Other abrasives

In the hydraulic equipment industry, surface precision of components is crucial for achieving high pressure resistance. Parts such as hydraulic cylinders and valves need to withstand high pressure, and even minor scratches or irregularities on the surface can lead to performance degradation or failure. ECOROLL roller burnishing contributes to improved pressure resistance by uniformly finishing the surface after machining and enhancing surface roughness. 【Application Scenarios】 - Finishing the inner diameter of hydraulic cylinders - Finishing the sliding surfaces of hydraulic valves - Surface treatment of high-pressure piping components 【Benefits of Implementation】 - Improved pressure resistance - Extended lifespan of components - Cost reduction through the reduction of grinding processes

• Other abrasives

In the energy industry, improving the operational efficiency of equipment is always a priority. Particularly in the surface treatment of metal parts, high precision and durability are essential. Traditional grinding processes not only take time and cost but also tend to complicate process management. ECOROLL roller burnishing addresses these challenges by achieving high-precision surface finishing in a short time after machining and enabling process consolidation. 【Application Scenarios】 * Surface finishing of power generation equipment parts * Machining of metal parts for energy-related equipment * Maintenance of plant equipment 【Benefits of Implementation】 * Cost reduction through the reduction of grinding processes * Increased productivity * Enhanced durability of parts

• Other abrasives

In the mold industry, improving the durability of molds is essential to balance product quality and productivity. Surface treatment of molds prevents wear and corrosion, contributing to a longer lifespan. Traditional grinding processes can be time-consuming and costly, but ECOROLL roller burnishing processing can uniformly finish the surface after machining and improve surface roughness, thereby extending the lifespan of molds. Additionally, since there are no chips produced, the effort required for post-processing is also reduced. 【Application Scenarios】 - Surface treatment of molds - Wear prevention - Corrosion prevention 【Benefits of Implementation】 - Increased lifespan of molds - Cost reduction by replacing grinding processes - Improved product quality through enhanced surface roughness

• Other abrasives

In the aerospace industry, there is a strong demand for lightweight components. Reducing the weight of parts is a crucial issue to improve fuel efficiency of the aircraft and increase payload capacity. ECOROLL roller burnishing smooths the surface after machining, achieving weight reduction while maintaining the strength of the components. Additionally, by reducing the grinding process, it contributes to process consolidation. 【Application Scenarios】 - Manufacturing of aircraft components - Manufacturing of space rocket components - Surface treatment of parts requiring weight reduction 【Benefits of Implementation】 - Improved fuel efficiency due to weight reduction of components - Cost reduction through process consolidation - Enhanced durability of components due to improved surface roughness

• Other abrasives

In the automotive industry, high durability is required to maintain the long-term performance of parts. In particular, for engine components and drivetrain parts, fine scratches and irregularities on the surface can lead to premature wear and damage of the components. ECOROLL roller burnishing contributes to improving the durability of parts by leveling the surface after machining and enhancing wear resistance. 【Application Scenes】 - Engine components - Transmission components - Suspension components 【Effects of Implementation】 - Improved wear resistance due to surface roughness enhancement - Extended component lifespan - Increased product reliability

• Other abrasives

In the ceramics industry, product quality and efficient production are essential. In grinding operations, clogging of the file can reduce work efficiency and potentially affect the precision of the finish. i-TOOL addresses these challenges with its special structure that minimizes clogging. 【Usage Scenarios】 - Grinding operations after shaping ceramics - Surface preparation before applying glaze - Restoration work on damaged ceramics 【Benefits of Implementation】 - Files are less prone to clogging, improving work efficiency - Achieves a beautiful finish with sharp cutting performance - High durability reduces the frequency of file replacements

• Hand polishing and filing

In the woodworking industry, clogging during sanding has become a significant challenge that reduces work efficiency. Particularly, depending on the type and shape of the wood, clogging of the file occurs frequently, leading to interruptions in work and the hassle of replacing the file. To address this issue, the high-performance file i-TOOL, which is resistant to clogging, is helpful. 【Usage Scenarios】 - Wood shaping work - DIY woodworking - Furniture manufacturing 【Benefits of Implementation】 - Reduction of work interruptions due to clogging - Decrease in the hassle of file replacement - Shortening of work time - Improvement in finishing accuracy

• Hand polishing and filing

In the electronics industry, the miniaturization and high density of products require precise polishing processes. In particular, accurate finishing is crucial for the joints of electronic components and the removal of fine burrs from enclosures. Traditional files have faced challenges such as work interruptions due to clogging and roughness of the polished surface. The i-TOOL addresses these issues with its special structure that minimizes clogging. 【Usage Scenarios】 - Deburring of electronic components - Polishing of precision instruments - Fine adjustments of molds 【Benefits of Implementation】 - Reduction of work interruptions due to clogging - Increased work efficiency with sharp cutting performance - Cost reduction through improved durability

• Hand polishing and filing

In the finishing process of the mold industry, high precision machining is required. Filing is an important process that affects this precision, but the decrease in work efficiency due to clogging is a significant challenge. Clogged files not only compromise the quality of the finish but also increase the burden on the worker. i-TOOL contributes to the efficiency and quality improvement of mold finishing with its special structure that is resistant to clogging. 【Usage Scenarios】 - Final finishing of molds - Deburring work - Chamfering work 【Benefits of Implementation】 - Reduction in filing work time - Improvement in finishing precision - Reduction of worker burden

• Hand polishing and filing

In the watch decoration industry, the beauty of the finishing details greatly influences the value of the product. In particular, deburring and polishing of metal parts are crucial processes that determine the visual quality. Traditional filing has faced challenges such as work interruptions due to clogging and issues with durability. The i-TOOL Bright 900 Craft Type addresses these challenges and enables a high-quality finish. 【Usage Scenarios】 - Deburring watch cases - Polishing metal dials - Fine-tuning decorative parts 【Benefits of Implementation】 - Improved work efficiency - Enhanced finishing quality - Cost reduction

• Hand polishing and filing

In the eyewear manufacturing industry, precise parts processing is required. In particular, the fine deburring of frames and lenses is a crucial process that affects the quality and safety of the products. Traditional filing can lead to issues such as decreased work efficiency due to clogging and variations in the finish. The i-TOOL Bright 900 Craft Type excels in the release of cutting debris, making it less prone to clogging and maintaining a sharp cutting edge, thus solving these problems. 【Usage Scenarios】 - Deburring of eyewear frames - Fine processing of lenses - Precision finishing of metal parts 【Benefits of Implementation】 - Improved work efficiency - Uniform finishing - Enhanced product quality

• Hand polishing and filing

In the mold industry, high-precision processing that affects product quality is required. The occurrence of burrs can lead to dimensional errors and surface roughness, potentially adversely affecting the performance and durability of products. The i-TOOL Bright 900 Craft Type achieves high precision in mold deburring operations, contributing to the improvement of product quality. 【Usage Scenarios】 - Finishing processing of molds - Deburring of precision parts - Mold maintenance 【Benefits of Implementation】 - Improved work efficiency due to high durability - Less prone to clogging, enabling stable cutting - Compatible with a wide range of materials, suitable for various molds

• Hand polishing and filing

In the electronics industry, the miniaturization of products is advancing, and precise processing is required. Deburring is a crucial process that affects the quality and safety of products. Especially in miniaturized electronic devices, accurately removing burrs from details is essential for maintaining product performance. Improper deburring can lead to malfunctioning parts and a shorter lifespan of products. The i-TOOL Bright 900 Craft Type is highly durable and resistant to clogging, allowing for efficient and precise deburring, contributing to the miniaturization and quality improvement of electronic devices. 【Usage Scenarios】 - Deburring small electronic components - Processing enclosures of precision instruments - Polishing circuit boards 【Benefits of Implementation】 - Increased efficiency in filing work - Improved product quality - Reduced burden on workers

• Hand polishing and filing

In the aerospace industry, reducing the weight of components is a crucial challenge. Weight reduction is essential for improving fuel efficiency and achieving higher performance. Therefore, both efficiency and precision are required in the deburring processes of component machining. The i-TOOL Bright 900 Craft Type, with a surface hardness of HV900 (HRC67), is capable of cutting various materials used in the aerospace field, such as aluminum and steel, contributing to improved work efficiency and finishing quality. 【Usage Scenarios】 - Deburring of aircraft components - Finishing of spacecraft components - Component machining aimed at weight reduction 【Benefits of Implementation】 - Files are less likely to clog, improving work efficiency - High durability reduces the frequency of replacements - Compatible with various materials, making tool management easier - Non-slip handle enhances workability

• Hand polishing and filing

In the automotive interior industry, high-quality finishes and work efficiency are required. In particular, deburring interior parts is an important process that affects not only the aesthetic appeal but also the ease of assembly and safety. Traditional filing methods can be time-consuming and labor-intensive, increasing the burden on workers and potentially leading to variations in finish quality. The i-TOOL Bright 900 Craft Type was developed to address these challenges. 【Usage Scenarios】 - Deburring interior parts - Finishing resin parts - Fine-tuning metal parts 【Benefits of Implementation】 - Reduced work time - Decreased burden on workers - Improved finish quality

• Hand polishing and filing

In the energy industry, improving equipment utilization rates and reducing maintenance costs are important challenges. In particular, the selection of live centers in metal processing significantly affects machining accuracy and tool life, which in turn impacts costs. IZS live centers contribute to solving these challenges by offering high quality at a low price and establishing a stable supply system. 【Usage Scenarios】 - Processing of power generation equipment parts - Maintenance of plant equipment - Manufacturing of renewable energy-related components 【Benefits of Implementation】 - Reduction in processing costs - Extension of tool life - Improvement in equipment utilization rates

• Processing Jig
• Other consumables

In the precision machinery industry, miniaturization and high precision of products are always required. In the processing of components, it is important to establish an efficient production system while maintaining high precision. The chuck is a crucial element that affects processing accuracy, and especially in the processing of miniaturized precision parts, high quality is demanded. IZS chucks contribute to improving customers' production efficiency by achieving high quality, low prices, and stable supply in response to these challenges. 【Usage Scenarios】 - Processing of small precision parts - Fixing of parts that require high precision processing - Small batch production of various types 【Benefits of Implementation】 - Improvement in processing accuracy - Increase in productivity - Cost reduction

• Processing Jig
• Other consumables

In the machine tool industry, managing the inventory of various types of raw claws has become a challenge. If the necessary raw claws are not available when needed, it can lead to decreased production efficiency and potential lost opportunities. IZS raw claws quickly provide the necessary raw claws at the right time, thanks to a rich lineup and immediate delivery system, contributing to the reduction of inventory for our customers. 【Usage Scenarios】 - Companies engaged in small-batch production of various types - Companies looking to reduce storage space for raw claws - Companies aiming to shorten delivery times 【Benefits of Implementation】 - Reduction in inventory costs - Improved production efficiency through shortened delivery times - Decreased lost opportunities

• Processing Jig
• Other consumables

In the automotive industry, there is a constant demand for the efficiency of manufacturing processes. Particularly in the processing of parts, high precision and stable fixation are crucial. The quality of the workholding jaws significantly impacts processing accuracy, affecting the rate of defective products and production efficiency. IZS workholding jaws achieve high quality and stable supply, contributing to the efficiency of processes in automobile manufacturing. 【Usage Scenarios】 - Lathe processing of automotive parts - Fixation of various metal parts - Support for small-batch production of diverse products 【Effects of Implementation】 - Improvement in processing accuracy - Reduction in defect rates - Increase in productivity

• Processing Jig
• Other consumables

In the mold industry, accurate engraving of model numbers on molds is essential for product quality control and ensuring traceability. High-precision engravings that are resistant to wear and damage are required. Traditional engraving methods have faced challenges such as being labor-intensive and time-consuming, or resulting in variations in engraving quality. Our ultra-compact laser engraving machine "GX Small" achieves high-precision laser marking while maintaining a compact design, streamlining the engraving of model numbers on molds. 【Usage Scenarios】 - Engraving model numbers, lot numbers, and manufacturing dates on molds - Engraving on small parts and precision components - Space-saving installation on workbenches 【Benefits of Implementation】 - Improved quality control through high-precision engraving - Ensured traceability - Increased efficiency in engraving tasks - Improved work environment through space-saving solutions

• Laser marker

In the aerospace industry, the quality and traceability of parts are the most critical issues. Especially since strict safety standards and long-term reliability are required, accurate identification and management of each part are essential. Traditional marking methods have challenges regarding durability and visibility, which can lead to increased management costs. Our ultra-compact desktop fiber laser engraving machine "GX Small" achieves high-precision engraving on aerospace parts and enhances traceability. 【Usage Scenarios】 - Engraving serial numbers, manufacturing lot numbers, and 2D codes on aerospace parts - Management of manufacturing processes, inventory, and quality control for parts - Marking on parts that require durability in harsh environments 【Benefits of Implementation】 - Strengthened quality control through improved traceability of parts - Enhanced visibility through high-precision engraving - Reduced damage to parts through non-contact marking - Compatibility with existing systems via EtherNet/IP and PROFINET integration

• Laser marker

In the automotive parts industry, quality control and traceability of components are crucial. Accurate information tracking is required from the manufacturing of parts to assembly and ultimately to the final product. If identifying parts becomes difficult, the response to quality issues may be delayed, potentially undermining customer trust. Our ultra-compact laser marking machine ensures traceability and enhances quality control through high-precision marking on parts. 【Usage Scenarios】 - Engraving serial numbers and manufacturing dates on automotive parts - Managing the manufacturing process of parts - Trace investigations in quality control 【Benefits of Implementation】 - Strengthened quality control through improved traceability of parts - Early detection of defective products and prompt response - Increased reliability from customers

• Laser marker

In the electronic components industry, there is a demand for improved product quality control and traceability. Particularly in the case of miniaturized electronic components, high-precision marking is essential. Traditional marking methods have risks such as ink smudging, erasure, or damage to the components. Our ultra-compact laser engraving machine achieves non-contact, high-precision marking, addressing these challenges. 【Usage Scenarios】 - Engraving model numbers and manufacturing dates on electronic components - Engraving serial numbers and 2D codes on circuit boards - Marking on various sensors and connectors 【Benefits of Implementation】 - Enhanced quality control through high-precision marking - Improved traceability through strengthened traceability measures - Reduced damage to components through non-contact marking

• Laser marker

In the medical device industry, individual identification is essential to ensure product traceability. Particularly in medical settings, durable and accurate marking is required to avoid misuse and confusion of devices. Laser engraving is the optimal solution to meet these needs. 【Application Scenarios】 - Engraving model numbers, serial numbers, and lot numbers on medical device components - Engraving identification marks on surgical instruments - Engraving information on medical implants 【Benefits of Implementation】 - Improved identification accuracy through high-precision engraving - Information retention through durable marking - Ensured safety through Class 1 safety design

• Laser marker

In the food machinery industry, hygiene management of the manufacturing process is extremely important. Identification labeling of parts is essential for preventing foreign matter contamination and ensuring thorough cleaning and maintenance. Additionally, compliance with food safety regulations is required. The wireless marking machine "Buddy120" enables alphanumeric identification marking on metal parts of food machinery. This enhances the traceability of parts and contributes to improved hygiene management. 【Usage Scenarios】 - Parts management in food manufacturing lines - Visualization of cleaning and maintenance records - Strengthening traceability 【Effects of Implementation】 - Easier identification of parts, reducing the risk of foreign matter contamination - Management of cleaning and maintenance records through marking, strengthening hygiene management - Improved traceability accelerates the investigation of causes in case of emergencies.

• Marking machine

In the semiconductor manufacturing industry, accurate identification and tracking of components is crucial for process management. Misidentification or inability to track components during the manufacturing process can lead to quality issues and decreased productivity. In response to this challenge, our handheld marking machine facilitates easy alphanumeric marking on metal parts, supporting the efficiency of process management. 【Usage Scenarios】 - Identification of components in the semiconductor manufacturing process - Strengthening of traceability management - Component management on the manufacturing floor 【Benefits of Implementation】 - Improved accuracy in component identification - Enhanced efficiency in process management - Strengthened traceability

• Marking machine

In the railway industry’s inspection process, accurate identification of parts and ensuring traceability are crucial. Especially for components related to safety, tracking inspection history is essential. Traditional stamping methods can hinder efficient inspections due to limitations in work locations and the complexity of the stamping process. Buddy120 allows for wireless stamping operations controlled from an Android device. Its lightweight design and magnetic fixtures enable agile stamping operations in inspection sites, contributing to the efficiency of parts management. 【Usage Scenarios】 - Inspection of railway vehicle parts - Tracking of inspection records - Identification management of parts 【Benefits of Implementation】 - Increased efficiency in the inspection process - Improved accuracy in parts management - Enhanced traceability

• Marking machine

In the agricultural machinery industry, the durability of parts that can withstand harsh environments is required. At the same time, the identification and traceability management of parts are also important. Accurate marking on metal parts that are resistant to wear and corrosion is essential for ensuring the long-term reliability of products. Our wireless marking machine addresses this challenge. 【Usage Scenarios】 - Marking on metal parts of agricultural machinery such as tractors and combines - Marking work in outdoor settings and on mobile job sites - Identification in the manufacturing, repair, and maintenance of parts 【Benefits of Implementation】 - Durable marking on metal parts - Strengthening of identification and traceability management of parts - Realization of agile marking work on-site

• Marking machine

In the mold industry, the identification and tracking of parts are crucial. Accurate management of parts during the manufacturing, repair, and maintenance of molds is essential for maintaining quality and ensuring efficient operations. Misidentification or inability to track parts can lead to work delays and quality issues. Buddy120 allows for alphanumeric marking on metal parts such as steel, stainless steel, aluminum, and brass, operated from an Android device. With wireless connectivity and a lightweight design, it enables agile marking operations on-site, enhancing part identification and traceability management. 【Usage Scenarios】 - Identification of mold parts - Management of parts during repair and maintenance - Improvement of traceability 【Benefits of Implementation】 - Prevention of part misidentification - Increased work efficiency - Strengthened quality control

• Marking machine

In the electronic equipment manufacturing industry, ensuring product quality control and traceability is crucial. The identification of parts is essential for enhancing traceability in the manufacturing process and suppressing the occurrence of defective products. Accurate marking on metal parts plays a key role in addressing these challenges. Our wireless marking machine allows for alphanumeric marking on metal parts via operation from an Android device. Its lightweight handheld design and wireless connectivity support agile work on the manufacturing floor. 【Usage Scenarios】 - Manufacturing of electronic equipment components - Marking of product serial numbers - Parts management in the manufacturing process 【Benefits of Implementation】 - Improved traceability through part identification - Increased efficiency in the manufacturing process - Strengthened quality control

• Marking machine

In the machine tool industry, ensuring the identification and traceability of parts is crucial. The display of model numbers is essential for streamlining parts management and preventing the use of incorrect parts. However, traditional stamping methods have faced issues such as being time-consuming or having quality problems with the stamps. Buddy120 addresses these challenges. [Usage Scenarios] - Stamping model numbers on machine tool parts - Identifying parts during repairs and maintenance - Managing parts in the manufacturing process [Benefits of Implementation] - Easier identification of parts, reducing management workload - Decreased stamping errors, contributing to quality improvement - Strengthened traceability, gaining customer trust

• Marking machine

In the shipbuilding industry, accurate identification and tracking of parts are crucial for safety management and quality assurance. Particularly for metal components used in harsh environments, durable and highly visible markings are required. Improper identification can lead to the use of incorrect parts or delays in the manufacturing process. Our wireless marking machine enables reliable marking on metal parts with simple operations from an Android device. 【Use Cases】 - Identification of hull structural components - Identification of engine parts - Identification of piping components - Tracking of parts during repair and maintenance 【Benefits of Implementation】 - Easier identification and tracking of parts, improving work efficiency - Prevention of incorrect part usage, enhancing safety - Strengthening traceability management, improving quality assurance

• Marking machine