第一商工 List of Products and Services

In the electronics industry, selecting cushioning materials is crucial for product protection and durability enhancement. In particular, to protect precision equipment from shocks and vibrations, appropriate materials and high-precision processing are required. Inadequate cushioning materials can lead to equipment failure or performance degradation. Our die-cutting processing specializes in cutting from rubber sheets, providing products that are ideal for cushioning applications in electronic devices. 【Usage Scenarios】 - Cushioning materials inside electronic device enclosures - Protective cushions for precision parts - Shock-absorbing materials 【Benefits of Implementation】 - Improved product protection performance - Extended product lifespan - Cost reduction

• Rubber Processing Machine
• Processing Contract
• Rubber

In the home appliance industry, precise processing of seals and gaskets is required to ensure product quality and durability. Especially for home appliances exposed to temperature changes and vibrations, the appropriate selection of sealing materials and high-precision processing are essential for maintaining product performance. Inadequate seals can lead to product failure or performance degradation. Our press-cutting processing accommodates various rubber materials and provides seals and gaskets tailored to customer needs. 【Usage Scenarios】 - Waterproof seals for home appliances - Dust prevention measures - Cushioning materials 【Benefits of Implementation】 - Improved product quality - Achieving long-term product lifespan - Cost reduction

• Rubber Processing Machine
• Processing Contract
• Rubber

In the toy industry, measures to protect children from falls and impacts are essential to ensure product safety. Particularly, the appropriate selection of shock-absorbing materials is crucial to meet the durability and safety standards of toys. Using inappropriate materials or processing methods can lead to product damage or unexpected accidents. Our press-cutting process specializes in cutting from rubber sheets, allowing us to select the optimal material from various rubber options and provide products that enhance the shock-absorbing performance of toys. 【Application Scenarios】 - Cushioning materials for toys - Parts requiring shock absorption - Impact mitigation during falls 【Benefits of Implementation】 - Improved product safety - Enhanced product durability - Compatibility with various rubber materials - Short delivery times

• Rubber Processing Machine
• Processing Contract
• Rubber

In the food industry, the material and precision of seals are crucial for maintaining product safety and quality. In particular, seals that come into direct contact with food must prevent foreign substance contamination and maintain a hygienic environment. Daiichi Shoko's rubber seal processing selects materials suitable for food and provides shapes and sizes tailored to customer needs. This contributes to the preservation of food quality and the enhancement of safety. 【Application Scenes】 - Food filling machines - Food packaging machines - Food storage containers 【Benefits of Implementation】 - Reduces the risk of foreign substance contamination in food - Maintains quality through high sealing performance - Accommodates a variety of rubber materials - Flexible response for small lots

• Rubber Processing Machine
• Processing Contract
• Rubber

In the agricultural sector, machines such as tractors and combines are used in harsh environments exposed to dust and dirt. To maintain the performance of these machines and prevent failures, dust-proof measures are essential. In particular, sealing gaps with seals and packing is crucial to prevent the intrusion of foreign substances and extend the lifespan of the machines. Our press-cutting process precisely manufactures these components from rubber sheets, contributing to the reliability of agricultural machinery. 【Usage Scenarios】 - Agricultural machinery such as tractors and combines - Various agricultural equipment requiring dust protection 【Benefits of Implementation】 - Reduced risk of machine failure - Lower maintenance costs - Improved machine operating rates

• Rubber Processing Machine
• Processing Contract
• Rubber

In the aerospace industry, high levels of safety and reliability are required, and cushioning materials must effectively absorb vibrations and impacts. Particularly for components used in harsh environments, durability and long-term performance maintenance are crucial. Our die-cutting process provides optimal cushioning materials for aerospace applications through precise cutting from rubber sheets. 【Application Scenarios】 * Cushioning materials for aircraft components * Interior materials for spacecraft * Protective materials for precision instruments 【Benefits of Implementation】 * Protection of equipment through vibration and impact absorption * Compatibility with a variety of rubber materials * Flexible support from prototyping to mass production

• Rubber Processing Machine
• Processing Contract
• Rubber

In the electronics industry, as product miniaturization and high performance progress, precise processing of insulating materials is required. In particular, insulation in tight spaces and insulation performance that is resistant to vibration and temperature changes are important. Improper use or processing of insulating materials can lead to short circuits or failures in products. Our press-cutting process responds to the insulation needs of electronic devices by cutting from rubber sheets. 【Application Scenarios】 - Insulation inside electronic devices - Insulation of circuit boards - Insulation around connectors - Insulation within enclosures - Insulation for various sensors 【Benefits of Implementation】 - Improved insulation performance - Enhanced product reliability - Cost reduction - Quick delivery response - Compatibility with a variety of materials

• Rubber Processing Machine
• Processing Contract
• Rubber

In the home appliance industry, precise processing of seals and gaskets is required to ensure product quality and durability. Especially in home appliances exposed to temperature changes and vibrations, the proper selection and processing of these components are essential for maintaining product performance. Inadequate seals and gaskets can lead to product failure or performance degradation. Our die-cutting processing accommodates various rubber materials and double-sided tape, providing products tailored to our customers' needs. 【Usage Scenarios】 - Seals and gaskets for home appliances - Vibration-damping and cushioning materials - Waterproof and dustproof measures 【Benefits of Implementation】 - Improved product quality - Cost reduction - Short delivery times

• Rubber Processing Machine
• Processing Contract
• Rubber

In the automotive industry, it is essential to reduce vibrations and noise during driving to provide a comfortable ride. In particular, vibrations transmitted from the engine and suspension can compromise the quietness inside the vehicle. Our press-cut processing produces seal packs and gaskets from rubber sheets, which help absorb these vibrations and enhance vibration-damping performance. 【Application Scenarios】 - Engine mounts - Cushioning materials between the body and suspension - Vibration-damping measures for interior components 【Benefits of Implementation】 - Reduction of vibrations - Suppression of noise - Improvement of ride comfort

• Rubber Processing Machine
• Processing Contract
• Rubber

Our company, based in Ueda City, Nagano Prefecture, started in 1957 with rubber die-cutting processing. Based on our accumulated experience, we can handle everything from prototypes and small lots to mass production. We excel not only in die-cutting rubber sheets but also in die-cutting rubber after applying double-sided tape. Although we use a simple die called a Thomson die for press die-cutting, the initial cost of the die varies depending on its size and quantity, but it is very inexpensive compared to press molds and forming molds, ranging from several thousand to tens of thousands of yen. One of the attractive features is that we can produce the die in about a week.

• Rubber Processing Machine
• Processing Contract
• Rubber

In the aerospace industry, instruments require high precision and reliability. Films and covers designed for insulation and protection inside the instruments are essential for maintaining performance in harsh environments. Malfunctions of these components can lead to instrument misoperation or failure, potentially jeopardizing safety. Daiichi Shoko's film cutting and bending processing offers optimal processing methods tailored to customer needs, contributing to the reliability enhancement of aerospace instruments. 【Application Scenes】 - Aircraft instrument panels - Control systems of space exploration vehicles - Advanced precision equipment 【Effects of Implementation】 - Improved insulation and protection performance of instruments - Enhanced durability in harsh environments - Increased product reliability

• Processing Contract
• plastic
• Engineering Plastics

In the electronics industry, as products become smaller and more functional, ensuring insulation performance is crucial. Insulation failures can lead to product malfunctions and failures, affecting safety as well. Daiichi Shoko's film cutting and bending processing provides countermeasure components such as insulation films and insulation covers, contributing to the reliability of electronic devices. 【Application Scenarios】 - Insulation measures inside electronic devices - Protection of circuit boards and components - Insulation covers for small electronic devices 【Effects of Implementation】 - Improved insulation performance - Enhanced product reliability - Support for product miniaturization

• Processing Contract
• plastic
• Engineering Plastics

In the medical device industry, the insulation, durability, and operability of control panels are crucial. To ensure the safety of patients and healthcare professionals, materials with high insulation performance and precise processing techniques are required. Daiichi Shoko's film cutting and bending processing specializes in the production of insulating films and covers to meet these needs. 【Usage Scenarios】 - Control panels for medical devices - Various display panels - Insulating covers 【Benefits of Implementation】 - Improved safety due to high insulation performance - Extended product lifespan due to increased durability - Enhanced convenience due to improved operability

• Processing Contract
• plastic
• Engineering Plastics

In automotive interior components, durability, safety, and design are essential. In particular, insulation films and covers that can withstand temperature changes and vibrations inside the vehicle are crucial for protecting electrical systems. Inappropriate materials or processing can lead to deterioration or malfunction of the components. Daiichi Shoko's film cutting and bending processing addresses these challenges and provides high-quality interior parts. 【Application Scenes】 - Instrument panel - Door trim - Console box - Seats 【Effects of Implementation】 - Improved insulation - Enhanced durability - Increased design flexibility - Potential cost reduction

• Processing Contract
• plastic
• Engineering Plastics

Based on our accumulated experience, we will propose the optimal processing methods from prototype and small lot production to mass production. We can handle not only film cutting but also double-sided tape application, bending processing, and printing. The main processing method will be using a Thomson die, but depending on the thickness and shape of the material, we can also accommodate intricate shapes using a Pinnacle die. For smaller quantities, we can also suggest processing using a cutting plotter.

• Processing Contract
• plastic
• Engineering Plastics

We offer not only die-cutting but also seal die-cutting (semi-die-cutting) with double-sided tape. The main method used is the Thomson type, which is a simple die-cutting method. We can also accommodate orders starting from one piece using cutting machine processing or water jet processing. We will select the processing method based on the shape and quantity and provide our suggestions. *In the case of thick materials, die-cutting can cause the material to be compressed while being cut, resulting in a drum-shaped cut surface, which may lead to issues. In such cases, we will provide suggestions other than press processing.

• Processing Contract
• plastic
• Rubber

In the civil engineering and infrastructure industry, the durability and safety of structures are crucial. By prototyping with materials intended for mass production at the prototype stage, it becomes possible to evaluate under conditions that simulate actual usage environments, leading to improved product reliability. This is particularly significant for products exposed to outdoor environments, where material selection greatly influences product lifespan. Prototyping with mass production materials allows for early detection of issues and appropriate material selection. Our company proposes a method for producing prototypes with mass production materials before mass production. 【Application Scenarios】 - Prototyping of infrastructure equipment - Prototyping of components for civil engineering structures - Prototyping of outdoor installation equipment 【Benefits of Implementation】 - Improved product reliability through prototyping with mass production materials - Early detection of issues and countermeasures - Reduction of initial costs

• Resin processing machine

In the telecommunications industry, the selection of materials for cases is crucial due to the need for product protection and durability. Particularly for cases used outdoors, weather resistance and impact resistance are essential. By producing prototypes with mass production materials before full-scale production, it becomes possible to evaluate them in actual usage environments. Our products support prototyping with materials used in mass production, which can also help reduce initial costs. 【Usage Scenarios】 - Communication device cases - Electronic device cases - Material selection during the prototyping stage 【Benefits of Implementation】 - Material selection aimed at mass production - Reduction of initial costs - Quick turnaround for prototypes

• Resin processing machine

In the energy sector, protecting products is crucial for ensuring safety and reliability. Particularly for components and equipment used in harsh environments, appropriate material selection is required to protect against external shocks and environmental factors. Inadequate material selection can lead to product failure or performance degradation. This is an introduction to a method of producing prototypes using mass production materials before full-scale production. We receive inquiries from customers who want to prototype using the materials that will be used in mass production, who want to create products from molded materials despite small quantities, and who want to keep initial costs down. We would like to propose two methods that can accommodate these needs. 【Usage Scenarios】 * Protective parts for energy-related equipment * Prototyping of components used in harsh environments * Prototyping of low-volume production items 【Benefits of Implementation】 * Prototyping with mass production materials allows for prior verification of product durability and performance * Prototyping with reduced initial costs is possible * Contributes to early market introduction of products

• Resin processing machine

In the agricultural sector, there is a demand for durable parts that can be used in specific environments. In particular, parts that will be used outdoors or come into contact with water, soil, and fertilizers require careful material selection. Parts made from appropriate materials extend the product's lifespan and reduce maintenance costs. Prototyping with mass production materials allows for testing that simulates actual usage conditions, which is essential for ensuring quality during mass production. 【Application Scenarios】 - Parts for agricultural machinery - Parts for irrigation systems - Parts for greenhouse equipment 【Benefits of Implementation】 - Enables material selection with an eye on mass production - Development of durable and weather-resistant parts - Cost reduction and quality improvement

• Resin processing machine

In the electronics industry, the selection of insulating materials is a crucial factor that affects the safety and performance of products. Especially for electronic devices used in high-voltage or high-temperature environments, the reliability of insulation performance is essential. Prototyping with materials intended for mass production is effective for selecting appropriate insulating materials. Prototyping with mass production materials allows for performance evaluation under actual usage conditions, contributing to the improvement of product reliability. Our company proposes a method for producing prototypes with mass production materials before full-scale production. 【Application Scenarios】 - Prototyping of insulating components for electronic devices - Evaluation of insulation performance for high-voltage equipment - Selection of insulating materials for high-temperature environments - Manufacturing of insulating components for small-scale production 【Benefits of Implementation】 - Improved reliability through prototyping with mass production materials - Reduction of initial costs - Quick response for prototyping with short lead times - Adaptability to a variety of materials

• Resin processing machine

In the toy industry, prototyping before mass production is crucial to ensure product quality and safety. Especially for toys that children directly interact with, the selection of materials significantly impacts product safety. By conducting prototypes with the materials intended for mass production, it becomes possible to verify the product's durability and safety in advance, allowing for early detection of issues. Our products enable prototyping with mass production materials, contributing to the improvement of toy quality. 【Application Scenarios】 - New product development at toy manufacturers - Design prototyping - Material testing before mass production 【Benefits of Implementation】 - Improved quality during mass production - Enhanced product safety - Potential cost reduction

• Resin processing machine

In the aerospace industry, reducing the weight of aircraft is essential for improving fuel efficiency and performance. To achieve weight reduction, prototyping with materials used in mass production is crucial. Prototyping with mass production materials allows for performance evaluation in a state close to the actual product, which helps identify and improve issues during the design phase. Our prototyping service using mass production materials has been developed to meet our customers' weight reduction needs. 【Application Scenarios】 - Aircraft components - Space exploration vehicle components - Drone components 【Benefits of Implementation】 - Improved product reliability by prototyping with materials used in mass production - Optimal material selection for weight reduction - Control of initial costs

• Resin processing machine

In the medical device industry, selecting materials during the prototyping phase is crucial to ensure product safety and reliability. Prototyping with materials intended for mass production is essential for performance evaluation and establishing a mass production system. Prototyping with mass production materials contributes to improving product quality and reducing costs. Our products enable prototyping with mass production materials and support the design and development of medical device components. 【Usage Scenarios】 - Prototyping of medical device components - Performance evaluation with mass production materials - Controlling initial costs 【Benefits of Implementation】 - Enables prototyping with materials aimed at mass production - Contributes to improving product quality - Contributes to cost reduction

• Resin processing machine

In the home appliance industry, the casing is a crucial element that determines the quality and design of the product. Conducting prototype testing of the casing using actual mass production materials during the pre-mass production stage is essential for improving product quality, optimizing manufacturing costs, and shortening the time to market. By prototyping with the materials that will be used in mass production, it is possible to verify the product's durability and finish in advance, allowing for early detection of issues during mass production. Additionally, it can meet the needs for small-scale production and cost reduction for initial investments. 【Usage Scenarios】 - Prototyping of home appliance casings - Verification before design reviews - Material selection before mass production 【Benefits of Implementation】 - Improved quality during mass production - Optimized manufacturing costs - Reduced time to market

• Resin processing machine

In the automotive interior industry, rapid prototyping is required due to design changes and additional functions. Especially for interior components related to durability, texture, and safety, prototyping with mass production materials is crucial. By creating prototypes with mass production materials before mass production, it is possible to anticipate the quality during mass production to some extent and to identify issues early in the design phase. Our company supports prototyping with mass production materials. 【Usage Scenarios】 - Design verification of interior components - Evaluation of material durability - Quality confirmation before mass production 【Benefits of Implementation】 - Improved quality during mass production - Quick response to design changes - Potential cost reduction

• Resin processing machine

This is an introduction to a method for producing prototypes using mass production materials before mass production. We often receive inquiries from customers who want to prototype using the materials that will be used in mass production, wish to create products with a small amount of molded material, or want to keep initial costs down. We would like to propose two possible methods for this. ■ Simple Mold Forming ■ Machining from Blocks Simple mold forming involves creating a low-cost temporary mold by changing the structure, number of cavities, and materials of the mold. This method may allow for a faster turnaround than starting with a production mold. Regarding machining from blocks, the materials that can be used are limited, but we can create blocks through molding and then machine them into products. 【Plastics】 Examples of materials used: ABS V0, PC V0, PBT GF15%, PPS CF10% (Some molded materials may require provision by the customer.) Possible size: 250×250×55 *Please note that depending on the material, it may not be possible to create blocks for plastics. Prototype costs will be incurred, but it is also possible to test the feasibility of block molding. 【Rubber】 Available materials: General press-molded materials (Please provide materials.) Possible size: 100×100×50

• Resin processing machine

In the robotics industry, lightweight and high-strength components are required to ensure a wide range of motion. Particularly in joint and drive parts, the reduction in weight and durability of components are crucial factors that influence the performance of robots. Deep hole machining is an essential processing technology to achieve both lightweight and strength in these components. Our deep hole machining (gun drilling) processes holes from φ3 to φ30 using gun drills, providing finished products tailored to customer needs. We accommodate deep hole machining for metals and plastics (such as acrylic), enhancing the design flexibility of robots. 【Application Scenarios】 - Joints of robotic arms - Drive parts of robotic hands - Weight reduction of robot frames 【Benefits of Implementation】 - Expansion of the range of motion due to weight reduction of components - Improved assembly accuracy through high-precision hole machining - Enhanced design flexibility by accommodating various materials

• lathe
• Other processing machines
• Processing Contract

In the food machinery industry, maintaining hygiene inside the machines is crucial to ensure product safety. In particular, areas that come into direct contact with food and deep holes that are difficult to clean are prone to becoming breeding grounds for bacteria, which can increase the risk of product quality deterioration and food poisoning. Deep hole processing is utilized as a pathway for cooling water and cleaning solutions, contributing to the hygiene management of food machinery. Our company processes deep holes ranging from φ3 to φ30 using a gun drill, providing finished products. Depending on the materials and hole sizes, deep hole processing in plastic is also possible, so please feel free to consult us. 【Application Scenes】 - Food filling machines - Cleaning machines - Sterilization devices 【Benefits of Implementation】 - Improved hygiene conditions inside the machines - Ensured product quality and safety - Enhanced maintainability

• lathe
• Other processing machines
• Processing Contract

In the ocean development industry, equipment and components designed for use in deep sea environments require high pressure resistance. In particular, the structure to withstand water pressure and the machining precision to prevent water ingress are crucial. Improper machining can lead to equipment failure or performance degradation. Our company processes deep holes ranging from φ3 to φ30 using a gun drill, providing finished products. Depending on the materials and hole sizes, deep hole machining in plastic is also possible. We support designs that take pressure resistance into account. 【Application Scenarios】 - Deep sea survey equipment - Ocean observation devices - Submarine parts 【Benefits of Implementation】 - Improved pressure resistance through high-precision deep hole machining - Increased design flexibility by accommodating various materials - Reduced lead time by providing finished products

• lathe
• Other processing machines
• Processing Contract

In the defense industry, high durability is required for the long-term reliability of products and the maintenance of performance under harsh conditions. Particularly for components that require deep hole machining, such as cooling water flow paths, air passages like pneumatic lines, and heater insertion holes, machining precision and material selection are crucial. Improper machining or material selection can lead to early deterioration or malfunction of the components. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, delivering them as finished products. We can accommodate various materials to meet customer needs. 【Application Scenarios】 - Components used in harsh environments - Components requiring high precision - Components that need cooling water or pneumatic passages 【Benefits of Implementation】 - Improved product durability - Enhanced reliability of components - Long-term maintenance of performance

• lathe
• Other processing machines
• Processing Contract

In the semiconductor manufacturing industry, effective heat dissipation measures are essential due to the increasing density and performance of devices. In particular, the precision and quality of deep hole machining in the production of heat dissipation components using metals and plastics with high thermal conductivity significantly affect product performance. Improper machining can lead to reduced heat dissipation efficiency and potential device failure. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing products tailored to customer needs. In metals, deep hole machining is often required for cooling water flow paths, air passages such as pneumatic lines, and heater insertion holes. Depending on the materials and hole sizes, we can also accommodate deep hole machining in plastics, so please feel free to consult with us. 【Application Scenarios】 * Semiconductor packages * Heat sinks * Cooling plates * Heat dissipation fins 【Benefits of Implementation】 * Improved heat dissipation performance * Extended device lifespan * Enhanced product reliability

• lathe
• Other processing machines
• Processing Contract

In the energy industry, there is a demand for improved efficiency in heat exchangers and cooling systems. In particular, optimizing flow paths is crucial for enhancing energy efficiency. Deep hole machining is essential for precisely processing the flow paths of cooling water and air passages, contributing to improved system performance. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing finished products. We can also accommodate deep hole machining in plastic to meet customer needs. Please feel free to consult with us. 【Application Scenarios】 - Heat exchangers - Cooling systems - Fuel cells - Other energy-related equipment 【Benefits of Implementation】 - Improved energy efficiency - Extended product lifespan - Cost reduction - Enhanced system reliability

• lathe
• Other processing machines
• Processing Contract

In the machine tool industry, high precision and durability are required, and rigidity is also an important factor. To maximize the performance of machine tools, the precision of deep hole machining is crucial, including the flow paths for cooling water, air passages such as pneumatic lines, and insertion holes for heaters. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing finished products. Depending on the materials and hole sizes, we can also accommodate deep hole machining in plastic, so please feel free to consult with us. 【Application Scenarios】 - Cooling water channels for machine tools - Pneumatic piping - Heater insertion holes 【Benefits of Implementation】 - Improved performance of machine tools - Enhanced durability - Increased product precision

• lathe
• Other processing machines
• Processing Contract

In the hydraulic equipment industry, the reliability of hydraulic control components under high-pressure conditions is crucial. In particular, components such as hydraulic cylinders and valves require deep hole machining that can withstand high pressure. Improper machining can lead to oil leaks and performance degradation. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing finished products. We offer deep hole machining for metals and plastics (such as acrylic) tailored to customer needs. 【Application Scenarios】 - Machining of cooling water passages for hydraulic cylinders - Machining of air passages for valve components - Machining of high-pressure piping components 【Benefits of Implementation】 - Improved reliability of components in high-pressure environments - Reduced risk of oil leaks - Increased product lifespan

• lathe
• Other processing machines
• Processing Contract

In the medical device industry, there is a trend towards miniaturization and precision of products, which requires fine hole processing. In particular, areas that require high precision, such as flow paths inside medical devices and fixing holes for components, are significantly influenced by the quality of deep hole processing. If the precision of deep hole processing is low, it can lead to fluid leaks or malfunctioning of components. Our deep hole processing (gun drilling) can handle deep holes from φ3 to φ30 using gun drills, and we provide them as finished products. Depending on the materials and hole sizes, deep hole processing in plastic is also possible, so please consult us. 【Application Scenarios】 - Processing of flow paths for medical tubes - Processing of fixing holes for precision parts - Hole processing for medical device housings 【Benefits of Implementation】 - Improved product quality through high-precision hole processing - Increased design flexibility by accommodating various materials - Reduced lead time by providing finished products

• lathe
• Other processing machines
• Processing Contract

In the aerospace industry, reducing the weight of components is essential for improving performance. In particular, lightweighting is a crucial challenge for enhancing the fuel efficiency and flight performance of aircraft. Deep hole machining is one effective method for achieving the lightweighting of metal components. It allows for the removal of unnecessary parts while maintaining the required strength, thus enabling weight reduction. Our deep hole machining (gun drilling) provides high-precision processing technology to meet the stringent demands of the aerospace sector. 【Application Scenarios】 - Aircraft components (engine parts, structural members, etc.) - Space exploration vehicle parts - Drone components 【Benefits of Implementation】 - Improved fuel efficiency through lightweighting of components - Enhanced aircraft performance - Reduction in material costs - Decrease in the number of parts

• lathe
• Other processing machines
• Processing Contract

In the automotive engine industry, deep hole machining is required in various parts of the engine, such as oil and coolant flow paths and pneumatic routes, to enhance combustion efficiency and cooling performance. In particular, high-precision hole machining is a crucial factor that affects engine performance. Improper machining can lead to decreased engine performance or failure. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing finished products. Machining is possible not only for metals but also for plastic materials. For details on hole sizes and machining lengths, please refer to the catalog (PDF). 【Application Scenes】 - Machining of coolant and oil flow paths - Machining of pneumatic routes - Machining of heater insertion holes 【Benefits of Implementation】 - Improved engine performance - Enhanced durability of components - Increased design flexibility

• lathe
• Other processing machines
• Processing Contract

This is an introduction to deep hole machining (gun drilling). In metals, deep hole machining is often required for cooling water flow paths, air passages such as pneumatic lines, and heater insertion holes. Our company processes deep holes ranging from φ3 to φ30 using gun drilling, providing finished products. Some customers may also request deep hole machining in plastic. Depending on the material and hole size, we may be able to accommodate such requests, so please feel free to consult with us. We have attached a catalog (PDF) with information on hole sizes and machining lengths.

• lathe
• Other processing machines
• Processing Contract

In the agricultural sector, the durability of components that can withstand harsh environments is essential. Parts of agricultural machinery and equipment exposed to soil, water, sunlight, and temperature changes require high durability and weather resistance. Resin lathe machining (NC automatic lathes) achieves high-precision processing with various plastic materials to meet these demands. This contributes to the longevity of agricultural machinery and reduces maintenance costs. 【Application Scenarios】 - Irrigation system components - Moving parts of agricultural machinery - Greenhouse equipment parts 【Effects of Implementation】 - Improved wear resistance and weather resistance - Reduced frequency of part replacements - Cost reduction

• plastic
• Engineering Plastics
• Processing Contract

In the high-frequency communication industry, components with precise shapes and high insulation properties are required to enhance the transmission efficiency of radio waves. Particularly for components used in the high-frequency range, the selection of materials and processing accuracy are crucial factors that influence communication quality. Our resin lathe machining (NC automatic lathe) specializes in the precision processing of plastic materials to meet these needs. 【Application Scenarios】 * High-frequency circuit components * Antenna components * Connector components * Insulation spacers 【Benefits of Implementation】 * Improvement of high-frequency characteristics * Cost reduction * Establishment of mass production systems * Adaptation to various shapes

• plastic
• Engineering Plastics
• Processing Contract

In the energy industry, there are many components that require high insulation properties and durability. Particularly in power supply systems and generation equipment, insulation failures can lead to serious accidents. Our resin lathe machining utilizes plastic materials with excellent insulation properties and addresses these challenges through precise machining techniques. Resin lathe machining ensures insulation while achieving cost-effective component supply. 【Application Scenarios】 - Insulation components for power cables - Insulating insulators for substations - Insulation components for generators 【Benefits of Implementation】 - Ensured high insulation performance - Cost reduction - Stable component supply

• plastic
• Engineering Plastics
• Processing Contract

In the robotics industry, durability and lightweight design of moving parts are essential. In particular, components that can withstand repeated movements and impacts are crucial. Inappropriate materials or processing methods can lead to wear and damage of parts, potentially causing a decline in robot performance or failure. Our resin lathe machining utilizes materials such as POM, MC nylon, and PEEK to provide components that achieve both high durability and lightweight characteristics. 【Application Scenarios】 - Joints of robotic arms - Bearings for drive components - Housings for various sensors 【Benefits of Implementation】 - Extended lifespan of moving parts - Overall weight reduction of the robot - Potential for cost reduction

• plastic
• Engineering Plastics
• Processing Contract

In the chemical industry, components used in environments exposed to chemicals and solvents require high chemical resistance. Deterioration or damage to these components can compromise the safety and reliability of products. Our resin lathe machining (NC automatic lathe) accommodates plastic materials with excellent chemical resistance, such as POM, MC nylon, and PEEK, providing customized component processing to meet customer needs. 【Application Scenarios】 - Chemical plants - Research facilities - Medical devices 【Benefits of Implementation】 - Provision of components with excellent chemical resistance - Increased product lifespan - Improved safety

• plastic
• Engineering Plastics
• Processing Contract

In the food industry, hygiene management of the manufacturing process is extremely important. Parts that come into direct contact with food and those used in the manufacturing environment require high cleanliness and durability. It is essential to minimize the risk of foreign matter contamination and ensure the quality and safety of products. Our resin lathe machining (NC automatic lathe) supports processing with materials that comply with food hygiene standards (such as POM, MC nylon, PEEK) and assists in hygiene management in food manufacturing with high precision and quality. 【Usage Scenarios】 - Parts for food manufacturing lines - Parts for food filling machines - Parts with easy-to-clean shapes 【Benefits of Implementation】 - Reduction of the risk of foreign matter contamination in food - Decreased frequency of parts replacement due to high durability - Strengthened hygiene management through improved cleanability

• plastic
• Engineering Plastics
• Processing Contract