Horiuchi Electronics Co., Ltd. Product Lineup

In the energy industry, the reliability of screw tightening is crucial to ensure the safety of equipment. Particularly in equipment exposed to vibrations and temperature changes, loosening or damage of screws can lead to serious accidents. Our high-speed precision digital torque driver for screw tightening enhances the reliability of screw fastening through high-precision torque management, contributing to the stable operation of equipment. 【Application Scenarios】 - Power plants - Substations - Plant equipment - Renewable energy-related facilities 【Benefits of Implementation】 - Improved quality of screw tightening - Enhanced safety of equipment - Reduced maintenance costs - Increased lifespan of equipment

• Other assembly machines

In the mold manufacturing industry, reproducibility in screw tightening is essential to maintain product quality. Particularly in the assembly and maintenance of molds, proper torque management is crucial. Insufficient torque or over-tightening can lead to a decrease in product accuracy or damage. Our high-speed precision digital torque driver achieves high-precision torque management, contributing to quality improvement in mold manufacturing. 【Application Scenarios】 - Mold assembly - Mold maintenance - Quality control 【Benefits of Implementation】 - Improved reproducibility in screw tightening - Stabilization of product quality - Increased work efficiency

• Other assembly machines

In the optical equipment industry, the precision of screw tightening is crucial for maintaining product quality and performance. Particularly in the assembly of lenses and precision components, inadequate torque management can lead to a decline in product performance or damage. Our high-speed precision digital torque driver achieves high-precision torque management and contributes to the enhancement of optical equipment performance. 【Application Scenarios】 - Assembly of optical lenses - Assembly of precision measuring instruments - Assembly of various sensors 【Benefits of Implementation】 - Improved screw tightening precision - Enhanced product quality - Reduced assembly time

• Other assembly machines

In the home appliance industry, the precision and durability of screw tightening are crucial to ensure the long-term reliability of products. Particularly in home appliances exposed to vibrations and temperature changes, loosening or breaking of screws can lead to product failures. Our high-speed precision digital torque driver for screw tightening enhances the quality of screw fastening through high-precision torque management, contributing to improved product durability. 【Usage Scenarios】 - Assembly processes of home appliances - Screw tightening in durability tests - Screw tightening inspections in quality control departments 【Benefits of Implementation】 - Improved product reliability through enhanced screw fastening quality - Assurance of long-term product durability - Cost reduction through the reduction of defective products

• Other assembly machines

In the semiconductor manufacturing industry, the precision of screw tightening is crucial for improving product quality and yield. Particularly in processes that handle fine components, torque management during screw tightening significantly impacts product performance. Insufficient or excessive torque can lead to product defects and a decrease in yield. Our high-speed precision digital torque driver achieves high-precision torque management and contributes to yield improvement. 【Usage Scenarios】 - Precise screw tightening operations on semiconductor production lines - Integration into desktop robots and SCARA robots - Processes requiring torque settings at specific points 【Benefits of Implementation】 - Improved yield due to enhanced screw tightening quality - Reduced work time - Decreased defective products - Increased product reliability

• Other assembly machines

In the telecommunications equipment industry, the precision of screw tightening is crucial to ensure product reliability. Particularly in equipment exposed to vibrations and temperature changes, loose screws or insufficient tightening can lead to product failures. Our high-speed precision digital torque driver for screw tightening addresses these challenges through high-precision torque management. 【Application Scenarios】 - Assembly processes for telecommunications equipment - Screw tightening inspections in quality control departments - Integration into desktop robots and SCARA robots 【Benefits of Implementation】 - Improved quality of screw tightening - Enhanced product reliability - Increased work efficiency

• Other assembly machines

In the field of robotics, there is a demand for the efficiency and quality improvement of assembly processes. In particular, screw tightening operations are a crucial process that affects the reliability of products, and precise torque management is essential. Inadequate torque management can lead to a decline in product performance or failure. Our high-speed precision digital torque driver for screw tightening achieves fast and accurate screw fastening, contributing to the efficiency of the assembly process. [Usage Scenarios] - Integration into desktop robots - Integration into SCARA robots - When torque settings are needed for specific points [Benefits of Implementation] - Reduction in work time due to high-speed and high-precision screw fastening - Improvement in product quality due to enhanced torque management accuracy - Flexible response with up to 16 program settings

• Other assembly machines

In the precision machinery industry, the accuracy of screw tightening is crucial to ensure product quality and reliability. Particularly in fields that require high-precision assembly, inadequate torque management can lead to decreased product performance or failure. Our high-speed precision screw tightening digital torque driver, equipped with the newly developed HPS technology, achieves fast and precise screw tightening. The torque setting can be configured to the actual torque value, and with the optional touch panel controller, both the set torque and the completed torque can be displayed. 【Usage Scenarios】 - Assembly of precision machinery - Tasks requiring high-precision torque management - Integration into desktop robots or SCARA robots 【Benefits of Implementation】 - Improvement in product quality - Increased work efficiency - Reduction in defect rates

• Other assembly machines

In the medical device industry, the precision of screw tightening is extremely important to ensure product safety. Especially for equipment that may involve human lives, loose or insufficiently tightened screws can lead to serious accidents. Our high-speed precision digital torque driver contributes to improving the safety of medical devices through high-precision torque management. [Application Scenarios] - Surgical robots - Medical imaging diagnostic devices - Patient monitoring systems [Benefits of Implementation] - Improved screw tightening quality - Enhanced product reliability - Reduced risk of accidents

• Other assembly machines

In the electronics industry, the miniaturization of products is advancing, and along with it, the precision and efficiency of screw tightening work have become important. Particularly in tasks involving limited space or the tightening of delicate components, torque management significantly affects product quality. Inadequate torque management can lead to product damage or performance degradation. Our high-speed precision digital torque driver for screw tightening achieves fast and highly accurate screw fastening, contributing to the improvement of electronic device quality. 【Usage Scenarios】 - Assembly of small electronic devices - Screw tightening of precision instruments - Integration into robotic arms 【Benefits of Implementation】 - Improved quality of screw tightening - Reduced working time - Increased yield

• Other assembly machines

In the aerospace industry, reducing the weight of components is a critical challenge. Lightweight and high-strength parts are essential for improving the fuel efficiency and performance of aircraft. Low precision in screw tightening can compromise the strength of components, making it difficult to ensure safety. Our high-speed precision digital torque driver for screw tightening enhances the reliability of lightweight components through high-precision torque management. 【Usage Scenarios】 - Manufacturing of aircraft and spacecraft - Assembly of components that require weight reduction - Areas that require high-precision screw tightening 【Benefits of Implementation】 - Improved quality of components through high-precision screw tightening - Maximizing the performance of lightweight components - Reduction of work time and increased efficiency

• Other assembly machines

In the automotive industry, product quality and safety are the top priorities. In particular, the tightening of screws during vehicle assembly directly affects the strength and durability of the components, making it a critical process that influences quality. Improper screw tightening can lead to abnormal noises and component detachment, potentially causing serious accidents. Our high-speed precision digital torque driver for screw tightening addresses these challenges through high-precision torque management, contributing to improved automotive quality. 【Application Scenarios】 - Screw tightening operations on automotive manufacturing lines - Screw tightening inspections in quality control departments - Screw tightening during prototype development stages 【Benefits of Implementation】 - Improved quality of screw tightening - Reduced work time - Decreased defective products - Enhanced assembly accuracy

• Other assembly machines

In the glass decoration industry, diversity in design and durability are required. Laser processing can apply delicate patterns and text to glass, significantly enhancing design freedom. Additionally, laser processing excels in durability, maintaining beautiful decorations over a long period. Our high-power CO2 laser marker enables drilling, cutting, and engraving on glass, broadening the scope of decoration. 【Usage Scenarios】 - Design processing for glass products - Production of signs and displays - Interior decoration 【Benefits of Implementation】 - High-quality finishes due to high-precision processing - Diverse design expressions - High durability

• Laser marker

In the leather industry, there is a demand for highly designed engravings to enhance the added value of products. In particular, engravings that are durable and highly visible are important for improving brand image. Traditional engraving methods have faced challenges such as time and cost issues, or uneven finishes. Our high-output CO2 laser marker addresses these challenges and easily achieves high-quality engravings. 【Usage Scenarios】 - Engraving brand logos on leather products - Engraving designs on leather accessories - Engraving serial numbers on leather products 【Benefits of Implementation】 - Enables high-quality and durable engravings - Supports a variety of designs - Increases productivity - Reduces costs

• Laser marker

In the apparel industry, the design of tags is crucial for enhancing the brand image of products. Depending on the material of the tag, issues such as distortion or scorching can occur during perforation or cutting processes, potentially compromising the quality of the product. A high-output CO2 laser marker performs perforation and cutting of resin materials, films, and resin sheets non-contact, thereby solving these problems and enabling the creation of high-quality tags. 【Usage Scenarios】 - Perforation of apparel tags - Cutting of apparel tags - Processing of resin materials such as acrylic, polystyrene, polypropylene, and PET (PS, OPS, PP, PET) 【Benefits of Implementation】 - Creation of high-quality tags - Reduced damage to materials due to non-contact processing - Compatibility with a variety of materials

• Laser marker

In the woodworking industry, precise engraving and marking on wood are required to create highly designed products. Particularly, attention to detail in design and the ability to work with diverse materials are important. Traditional engraving methods have faced challenges such as time and cost issues, or the inability to accommodate complex shapes. Our high-power CO2 laser marker processes wood non-contact, solving these challenges. 【Application Scenarios】 - Design engraving on woodworking products - Lettering on signs and nameplates - Personalization on wooden gifts 【Benefits of Implementation】 - Increased product value through high-precision engraving - Ability to accommodate diverse designs - Reduced working time and cost savings

• Laser marker

In the packaging industry's design field, precise processing of diverse materials is required to differentiate products. In particular, high-design packages and delicate processing to enhance brand image are important. Traditional processing methods have faced challenges such as time and cost constraints, or limitations on the types of materials that can be processed. Our high-output CO2 laser marker addresses these challenges and expands the possibilities of packaging design. 【Application Scenarios】 - Design processing on acrylic and PET materials - Drilling and cutting on films and resin sheets - Marking on various paper materials 【Benefits of Implementation】 - Compatibility with diverse materials - Enhanced design quality through high-precision processing - Reduced damage to materials through non-contact processing

• Laser marker

In the aerospace industry, durable marking is required to ensure the traceability of parts. Clear and long-lasting markings that can withstand harsh environments are essential. High-power CO2 laser markers can mark various materials and achieve high durability. 【Application Scenarios】 - Printing tracking codes on aircraft parts - Printing model numbers on space-related equipment - Parts management in the manufacturing process 【Benefits of Implementation】 - Improved traceability through high-precision marking - Wide range of applications due to compatibility with various materials - Long-term visibility ensured by high durability

• Laser marker

In the automotive industry, durable marking is required to ensure the traceability of parts. Clear and long-lasting markings that can withstand harsh environments are essential. Our high-output CO2 laser marker is ideal for marking resin parts. 【Application Scenarios】 - Marking part numbers, logos, and serial numbers on automotive components - Cutting and drilling of resin interior parts 【Benefits of Implementation】 - Improved quality control through high-precision marking - Reduced damage to parts due to non-contact processing - Compatibility with a variety of resin materials

• Laser marker

In the electronic components industry, printing model numbers is essential to ensure product traceability. As electronic components become smaller, high-precision printing is required. Laser markers can print model numbers non-contact, minimizing damage to the products while achieving high visibility. Our high-power CO2 laser marker is ideal for printing model numbers on resin materials. 【Usage Scenarios】 - Printing model numbers on electronic components - Printing model numbers on circuit boards 【Benefits of Implementation】 - Improved visibility through high-precision printing - Reduced damage to products through non-contact processing - Compatibility with various resin materials

• Laser marker

In the cosmetics industry, the accuracy of product labeling is essential. In particular, ingredient labeling plays a crucial role in consumers' product choices, and accurate labeling is indispensable from the perspective of regulatory compliance. Inkjet methods can lead to issues such as ink bleeding or peeling, which can impair the visibility of the labels. High-power CO2 laser markers solve these challenges by enabling non-contact marking on resin materials. 【Usage Scenarios】 - Ingredient labeling on cosmetic containers - Lot number printing on plastic containers - Brand logo printing on sample containers 【Benefits of Implementation】 - Improved visibility through high-precision marking - Reduction of printing defects due to ink depletion - Compatibility with a variety of resin materials

• Laser marker

In the pharmaceutical industry, accurate identification labeling of products is essential. Clear and durable marking is required for product traceability and counterfeit prevention. Traditional inkjet methods can lead to issues such as ink peeling or smudging, resulting in the loss of markings. High-power CO2 laser markers solve these problems by enabling direct marking on resin materials. This makes it possible to enhance the quality control and safety of pharmaceuticals. 【Application Scenarios】 - Printing lot numbers and manufacturing dates on pharmaceutical containers - Printing model numbers and serial numbers on medical devices - Printing identification marks on plastic containers 【Benefits of Implementation】 - High-precision and durable marking - Improved product traceability - Counterfeit prevention measures - Compatibility with various resin materials

• Laser marker

In the beverage industry, accurate printing of lot numbers is required to ensure product traceability. Particularly, as manufacturing lines become faster, high-speed and high-precision printing capabilities are essential. Inkjet methods require ink replenishment and maintenance, which can lead to reduced operational efficiency. Our high-output CO2 laser marker achieves high-speed printing in a non-contact manner, maintaining high productivity. 【Usage Scenarios】 - Printing lot numbers on beverage bottles - Printing expiration dates and manufacturing dates - Printing brand logos on containers 【Benefits of Implementation】 - Increased productivity through high-speed printing - Reduced ink costs through non-contact printing - Maintained printing quality with high durability

• Laser marker

In the food industry, ensuring product quality and safety is the top priority. The printing of expiration dates and manufacturing dates significantly influences consumers' purchasing decisions and is essential for ensuring food traceability. While inkjet methods require ink consumption and maintenance, our high-output CO2 laser marker achieves non-contact, high-speed, and high-precision printing, allowing direct printing on food packaging materials. This reduces the risk of printing defects due to ink depletion and quality deterioration caused by ink adhesion, thereby enhancing food safety. 【Usage Scenarios】 - Printing expiration dates and manufacturing dates on food packaging - Printing lot numbers on food trays - Printing brand logos on food containers 【Benefits of Implementation】 - Increased productivity through high-speed printing - Quality preservation through non-contact printing - Reduction in ink consumption costs - Improved durability of prints

• Laser marker

In the measurement instrument manufacturing industry, precise processing of components is required to ensure product reliability. In particular, accurate cutting of lead wires is crucial for high-precision measurements. Manual cutting of lead wires can lead to dimensional variations and decreased work efficiency. The lead wire pre-cutting machine "Cutman" Wide enables cutting to a consistent dimension, improving work efficiency. 【Usage Scenarios】 - Manufacturing of high-precision measuring instruments - Tasks where lead wire dimensional management is important - Moving away from manual lead wire cutting 【Benefits of Implementation】 - Improved accuracy of lead wire cutting - Reduced work time - Stabilization of quality

• Other mounting machines

In the audio equipment manufacturing industry, precise implementation of electronic components is required to achieve high-quality sound. In particular, the handling of lead wires can affect acoustic characteristics, making accurate cutting and implementation crucial. Manually cutting lead wires can be time-consuming and may reduce work efficiency. The lead wire pre-cutting machine "Cutman" Wide streamlines the implementation process by cutting lead wires to a consistent size, supporting the production of high-quality audio equipment. 【Usage Scenarios】 - Lead wire cutting operations in audio equipment manufacturing factories - Lead wire processing before component implementation on printed circuit boards - Manufacturing products that pursue high sound quality 【Benefits of Implementation】 - Increased efficiency in lead wire cutting operations - Reduction in work time - Stabilization of quality - Cost reduction

• Other mounting machines

In the game console manufacturing industry, there is a demand for miniaturization of products and improved efficiency in component implementation. Manually cutting the lead wires of electronic components on a circuit board is time-consuming and labor-intensive, which can lead to decreased efficiency. Irregular lead wire lengths can also cause implementation defects. A cutting machine contributes to the efficiency and quality improvement of the implementation process by accurately cutting the lead wires of electronic components to a uniform size. 【Usage Scenarios】 - Circuit board implementation process inside game consoles - Manufacturing sites for small electronic devices - Factories aiming for space-saving solutions 【Benefits of Implementation】 - Increased efficiency in lead wire cutting tasks - Improved implementation accuracy - Reduced work time - Cost savings

• Other mounting machines

In the lighting fixture manufacturing industry, there is a demand for products with high energy-saving performance. As products aimed at energy conservation, such as LED lighting, increase, the precise processing of components becomes crucial. The cutting of lead wires significantly impacts product quality and manufacturing efficiency. Manual cutting is time-consuming and labor-intensive, placing a heavy burden on workers. The lead wire pre-cutting machine "Cutman" Wide improves work efficiency by cutting lead wires to a consistent length, supporting the production of energy-saving products. 【Usage Scenarios】 - Manufacturing of LED lighting fixtures - Processing of components for energy-saving lighting fixtures - Repair and maintenance of lighting fixtures 【Benefits of Implementation】 - Streamlining of lead wire cutting operations - Reduction of work time - Improvement in product quality - Alleviation of worker burden

• Other mounting machines

In the mass production sites of the solar power generation industry, precise cutting of lead wires in module manufacturing is required. Particularly, balancing quality and production efficiency is crucial. Manual cutting of lead wires is time-consuming and labor-intensive, increasing the burden on workers. Variations in cutting dimensions can also affect product quality. The lead wire pre-cutting machine "Cutman" Wide allows for easy and accurate cutting of lead wires, improving production efficiency. 【Usage Scenarios】 - Manufacturing lines for solar power modules - Processes requiring bulk cutting of lead wires - Sites aiming to balance quality and efficiency 【Benefits of Implementation】 - Reduction in work time - Improvement in cutting accuracy - Alleviation of worker burden

• Other mounting machines

In the aerospace industry, reducing the weight of aircraft is an important challenge. As electronic components become smaller, the proper cutting of lead wires enhances the efficiency of component mounting and ultimately contributes to the reduction of aircraft weight. Manual cutting of lead wires can be time-consuming and labor-intensive, potentially decreasing work efficiency. The lead wire pre-cutting machine "Cutman" Wide streamlines the mounting process by cutting lead wires of electronic components to a consistent size, thereby contributing to weight reduction. 【Usage Scenarios】 - Cutting lead wires in the manufacturing of electronic devices for aircraft and spacecraft - Mounting processes for electronic components where weight reduction is required - Accelerating lead wire cutting in prototype development 【Benefits of Implementation】 - Increased efficiency in lead wire cutting tasks - Reduced mounting time - Contribution to aircraft weight reduction

• Other mounting machines

In the robot manufacturing industry, there is a demand for increased productivity through process automation. Particularly in the electronic component mounting process, the cutting of lead wires can become a bottleneck. Manual lead wire cutting not only takes time and effort but also has the potential for quality variations depending on the skill level of the worker. The lead wire pre-cutting machine "Cutman" Wide facilitates integration into automated lines with robots, achieving stable quality in lead wire cutting. 【Usage Scenarios】 - Electronic component mounting lines with robots - Automated assembly lines - Labor-saving and unmanned lines 【Benefits of Implementation】 - Reduction in work time - Stabilization of quality - Increase in productivity - Reduction in labor costs

• Other mounting machines

In the telecommunications equipment manufacturing industry, there is a demand for increased efficiency in component mounting due to the miniaturization and high performance of products. In particular, manual cutting of lead wires can lead to variations in work time and quality. The lead wire pre-cutting machine "Cutman" Wide contributes to the efficiency of the mounting process by cutting the lead wires of solder dip components to a consistent length. 【Usage Scenarios】 - Cutting lead wires before component mounting on printed circuit boards in telecommunications equipment manufacturing - Moving away from manual lead wire cutting - Accelerating the lead wire cutting process 【Benefits of Implementation】 - Increased productivity through the efficiency of lead wire cutting tasks - Stabilization of mounting quality through consistent length cutting - Reduction in work time - Decrease in labor costs

• Other mounting machines

In the medical device manufacturing industry, the quality and safety of products are the top priorities. The cutting of lead wires for electronic components greatly affects product reliability. Manual cutting of lead wires can lead to dimensional variations and decreased work efficiency, potentially becoming a quality management issue. The lead wire pre-cutting machine "Cutman" Wide addresses these challenges by cutting the lead wires of solder dip components to a consistent size before mounting them on printed circuit boards. 【Usage Scenarios】 - Medical device manufacturing sites - Quality control departments - Electronic component assembly processes 【Benefits of Implementation】 - Increased efficiency in lead wire cutting operations - Improved quality through uniform cutting dimensions - Reduced work time - Decreased defect rates

• Other mounting machines

In the automotive parts manufacturing industry, cost reduction is a critical issue. In particular, manual cutting of lead wires for electronic components can be time-consuming and labor-intensive, potentially leading to increased costs. Variability in cutting precision can also pose challenges for quality control. The lead wire pre-cutting machine "Cutman" Wide automates the manual cutting of lead wires, contributing to cost reduction by improving work efficiency. 【Usage Scenarios】 - Cutting lead wires for electronic components in automotive parts manufacturing factories - Lead wire cutting process before circuit board assembly - Supplying parts for home-based work 【Benefits of Implementation】 - Reduction in work time - Decrease in labor costs - Stabilization of quality through improved cutting precision - 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 affect the assembly process of the products and potentially lead to a decline in quality. The cutting machine addresses the challenges of manual lead wire cutting and enables cuts at consistent dimensions. 【Usage Scenarios】 - PCB assembly processes for home appliances - Lead wire cutting tasks for electronic components - Precision improvement in quality control departments 【Benefits of Implementation】 - Improved precision in lead wire cutting - Reduced work time - Decreased defective products - Reduced burden on workers

• Other mounting machines

In the electronic components manufacturing industry, the cutting of lead wires significantly impacts product quality and production efficiency. Manual cutting is time-consuming and labor-intensive, potentially leading to increased worker burden and quality issues due to variations in cut dimensions. The lead wire pre-cutting machine "Cutman" Wide addresses this challenge. 【Usage Scenarios】 - Cutting process for lead wires of electronic components - Pre-processing before component mounting on printed circuit boards - Improvement of work efficiency 【Benefits of Implementation】 - Reduction of work time - Improvement of cutting accuracy - Reduction of worker burden

• Other mounting machines

In the audio equipment industry, the quality of electronic components that influence product sound quality is crucial. The cutting precision of lead wires can affect the performance of audio equipment. Improper cutting may lead to noise generation and deterioration of sound quality. Cutman Rotary supports the manufacturing of high-quality audio equipment by enhancing the cutting precision of lead wires. 【Usage Scenarios】 - Manufacturing high-quality audio equipment - Lead wire cutting process 【Benefits of Implementation】 - Improved sound quality - Increased product reliability

• Other mounting machines

In the gaming console industry, the miniaturization of products is progressing, and the arrangement of electronic components on circuit boards is becoming more complex. Consequently, the precision and efficiency of lead wire cutting operations have become crucial. Manual cutting is time-consuming and labor-intensive, and the quality may vary depending on the skill level of the operator. The Cutman Rotary addresses these challenges by automating the lead wire cutting process. 【Application Scenarios】 - Manufacturing of gaming console circuit boards - Assembly processes of electronic components - Any situation requiring lead wire cutting 【Benefits of Implementation】 - Reduction in work time - Stabilization of quality - Cost reduction

• Other mounting machines

In the lighting fixture industry, precise processing of components is required to enhance energy-saving performance. Particularly with the spread of LED lighting, the processing accuracy of lead wires significantly impacts product quality and efficiency. If cutting lead wires is labor-intensive, it can lead to decreased production efficiency and increased costs. The Cutman Rotary streamlines the lead wire cutting process, contributing to improved productivity. 【Application Scenarios】 - Manufacturing of LED lighting fixtures - Assembly of energy-efficient lighting fixtures - Repair and maintenance of lighting fixtures 【Benefits of Implementation】 - Reduction in lead wire cutting time - Improvement in work efficiency - Cost reduction

• Other mounting machines

In the defense industry, the reliability and durability of electronic devices are extremely important. Products that can withstand use in harsh environments are required, and the precise cutting of lead wires is one of the critical factors that influence the performance of the equipment. Poor cutting of lead wires can lead to malfunction or failure of the devices. The electronic component lead wire pre-cutting machine "Cutman" Rotary achieves accurate cutting and contributes to improving the reliability of defense-related equipment. [Usage Scenarios] - Manufacturing electronic devices in harsh environments - Processing lead wires for equipment that requires durability - Manufacturing devices that are resistant to vibration and shock [Effects of Implementation] - Improved cutting accuracy of lead wires - Enhanced reliability of equipment - Increased work efficiency

• Other mounting machines

In the measurement instrument industry, precise cutting of lead wires is required to ensure the accurate operation of products. Especially in devices that perform high-precision measurements, the length of the lead wires and the accuracy of the cut surface can significantly impact the measurement results. Inaccurate cutting can lead to measurement errors or equipment failures. Our electronic component lead wire pre-cutting machine, "Cutman" Rotary, is specialized in cutting lead wires and contributes to improving the accuracy of measurement instruments. 【Usage Scenarios】 - Manufacturing high-precision measuring instruments - When adjustment of lead wire length is necessary - When precision of the cut surface is required 【Benefits of Implementation】 - Improved cutting accuracy of lead wires - Contributes to enhanced performance of measuring instruments - Improved work efficiency

• Other mounting machines

As automation with industrial robots advances, the efficiency of the lead wire cutting process is essential for improving productivity. Poor lead wire cutting can lead to robot system downtime and a decline in product quality. The Cutman Rotary achieves precise cutting and contributes to the stable operation of automated lines. 【Usage Scenarios】 - Assembly processes of electronic components using industrial robots - Lead wire cutting tasks in automated production lines 【Benefits of Implementation】 - Increased productivity through the automation of the lead wire cutting process - Stabilization of quality through improved cutting accuracy - Reduction of work time and cost savings

• Other mounting machines

In the aerospace industry, reducing the weight of components is essential for improving fuel efficiency and performance. Eliminating waste in lead wires and cutting them to precise lengths contributes to weight reduction. The Cutman Rotary helps reduce waste in lead wires and contributes to lightweighting. 【Usage Scenarios】 - Manufacturing of aircraft and spacecraft - Manufacturing of components where weight reduction is required 【Benefits of Implementation】 - Reduction of waste in lead wires - Contribution to weight reduction - Improvement in work efficiency

• Other mounting machines

In the medical device industry, product safety is the top priority. Accurate processing in lead wire cutting is essential to ensure the reliability of the equipment. Improper cutting can lead to malfunctions or performance degradation of the devices. The Cutman Rotary streamlines the lead wire cutting process and supports the safety of medical devices. 【Usage Scenarios】 - Lead wire cutting in medical device manufacturing - Lead wire processing in quality control departments - Prototyping in research and development departments 【Benefits of Implementation】 - Improved accuracy in lead wire processing - Reduced work time - Increased yield

• Other mounting machines

In the telecommunications equipment industry, the miniaturization of products and high-density mounting have progressed, leading to a demand for precise cutting of lead wires. Particularly when handling precision electronic components, the length of the lead wires and the accuracy of the cutting surface significantly affect the quality of the products. Improper cutting can cause connection failures or short circuits, potentially compromising the reliability of the products. The Cutman Rotary specializes in cutting lead wires, achieving precise cuts. 【Usage Scenarios】 - Manufacturing lines for telecommunications equipment - Assembly processes for electronic components - Prototype development 【Benefits of Implementation】 - Improved cutting accuracy of lead wires - Enhanced work efficiency - Stabilization of product quality

• Other mounting machines