Ryohshin (Thailand) Co., Ltd.

RDF Fuel Production – Transforming Waste into Energy for a Sustainable Future

RDF fuel production is a process that converts waste into high-calorie fuel through shredding, sorting, and compression. This system is capable of handling large volumes of waste, and the produced RDF fuel can be used as an alternative to coal in cement factories, paper mills, and steel plants. This helps reduce fossil fuel consumption and lower CO₂ emissions. Advanced recycling technology from Japan is applied to support waste management and waste-to-energy conversion in Thailand. The RDF production system contributes to reducing environmental impact, lowering energy costs for industries, and promoting sustainable economic growth. ■ Key Features of RDF Fuel ✅ CO₂ Reduction: Switching from coal to RDF fuel reduces greenhouse gas emissions. ✅ Fuel Cost Reduction: Reusing waste as an energy source lowers industrial energy costs. ✅ Efficient Waste Treatment: An optimized shredding and sorting process ensures high-quality RDF fuel production. ✅ Handling Various Waste Types: Capable of processing both municipal waste and industrial waste to ensure a stable fuel supply. ✅ Space-saving & Efficient Transportation: Hexagonal bale compression improves transport and storage efficiency. ■ RDF Production Process 1️⃣ Dual-Shaft Shredder: Processes hard-to-shred waste such as ropes and fishing nets. 2️⃣ Primary Shredder: Reduces waste size to 150–250mm for improved sorting accuracy. 3️⃣ Vibrating Separator: Removes impurities like sand to reduce the load in subsequent processes. 4️⃣ Air Separator: Separates lightweight materials for fuel from heavy materials that can be recycled. 5️⃣ Magnetic & Aluminum Separator and Manual Sorting: Sorts out metals and combustible materials for resource recovery. 6️⃣ Optical Separator: Removes chlorine and metals to produce high-quality RDF fuel. 7️⃣ Secondary Shredder: Achieves a processing capacity of up to 12 tons/hour (<20mm) or 20 tons/hour (<40mm). 8️⃣ Hexagonal Bale Compression & Packaging Machine: Enhances transportation and storage efficiency. RDF fuel production is a sustainable solution for converting waste into energy. It supports both CO₂ reduction and fuel cost savings, contributing to the 2050 net-zero carbon emissions goal. Download the PDF or contact us for more information.

Gypsum Board Recycling – Turning Waste into New Resources

Gypsum boards are widely used in construction, but demolition activities generate a significant volume of waste. Traditionally, this waste was disposed of in landfills. However, with advancements in recycling technology, used gypsum boards can now be processed into new building materials or raw materials for cement production. The system enables efficient crushing, sorting, and impurity removal to produce high-purity gypsum powder, promoting resource efficiency and reducing CO₂ emissions. We are committed to bringing Japan's advanced recycling technology to Thailand to support the sustainable growth of the construction industry. ■ Key Features of the Gypsum Board Recycling System ✅ Reduces raw material costs by replacing virgin resources with recycled gypsum. ✅ Reduces CO₂ emissions by minimizing the impact of landfill disposal and new mining operations. ✅ Preserves natural resources by reducing dependence on virgin gypsum and preventing resource depletion ✅ Enhances impurity removal with a magnetic system that effectively removes nails and metals, ensuring high-quality gypsum powder. ■ Gypsum Board Recycling Process 1️⃣ Waste Conveyor System: Transports waste gypsum boards via a screw conveyor while performing rough crushing. 2️⃣ Gypsum Separator: Separates paper from gypsum powder, optimizing processing capacity and sorting precision. 3️⃣ Magnetic Metal Separator: Removes nails and other metal impurities to enhance the quality of recycled materials. 4️⃣ Vibrating Sieving Machine: The final sieving process adjusts particle size to ensure consistent, high-purity gypsum powder. ■ Industries Suitable for System Installation (Japan) - Gypsum Board Manufacturers - Construction Companies - Building Material Manufacturers - Cement Factories - Recycling Companies Gypsum board recycling is a vital initiative that not only reduces environmental impact but also supports a sustainable supply chain for construction materials. By conserving natural resources and cutting CO₂ emissions, it contributes to the development of a circular economy. Interested in installing a gypsum board recycling system? Contact us for more details!

Glass Recycling – Turning Used Glass into New Resources

Glass recycling is a highly efficient technology that transforms used glass into new resources, enabling a sustainable circular economy. Glass is an infinitely recyclable material, and when it is processed into cullet (recycled glass), it helps reduce raw material costs and lower CO₂ emissions. This system automatically sorts glass by color and type, ensuring that the final product maintains high quality and can be reused to produce new glass bottles and construction materials. We are committed to introducing Japan’s advanced recycling technology to Thailand, supporting the sustainable growth of local industries. ■ Key Features of the Glass Recycling System ✅ Reduces Raw Material Costs – Using cullet can lower energy costs in glass production by approximately 25%. ✅ Reduces CO₂ Emissions – Increasing cullet usage can reduce CO₂ emissions by about 28%. ✅ Reduces Natural Resource Consumption – Limits the use of silica sand, limestone, and soda ash, which are natural raw materials. ✅ Advanced Automatic Sorting Technology – High-precision sorting systems remove impurities to produce high-purity cullet. ✅ Sustainable Recycling – Glass bottles can be recycled indefinitely, enabling a closed-loop recycling system within the country. ■ Benefits of Using Cullet 1️⃣ Lower Manufacturing Costs • Cullet melts at a lower temperature than natural raw materials, reducing energy consumption by ~25%. • When using 100% cullet, only 75% of the usual energy is required in production. 2️⃣ CO₂ Emissions Reduction • Faster melting leads to ~28% CO₂ reduction. • Supports carbon neutrality and greenhouse gas mitigation goals. Glass recycling is a sustainable system that maximizes resource utilization, reduces CO₂ emissions, and minimizes environmental impact. Interested in installing a glass recycling system? Contact us for more details!

The Best Solution for Wire & Cable Recycling – Insulation Stripping Machine & High-Power Cutter

In wire and cable recycling, efficiently removing insulation is essential for recovering high-purity copper and aluminium. Traditional manual methods are slow, labor-intensive, and often yield inconsistent results. Our system combines compact insulation strippers with high-power cutters to quickly and effectively remove insulation, enhancing material recovery efficiency. We are committed to bringing Japanese recycling technology to Thailand to enhance the efficiency of wire recycling and support the sustainable growth of industries. ■ Key Features of the System ✅ High Recovery Efficiency—Precision stripping and cutting technology ensures maximum copper and aluminum yield. ✅ Increased Productivity – Processes large volumes of materials in a short time compared to manual methods. ✅ Compatible with Various Cable Types—Suitable for general wires, large-diameter cables, and special cables. ✅ Industrial-Grade Durability—Designed for continuous heavy-duty use with minimal maintenance. ✅ Easy to Use—Simple and user-friendly design for hassle-free operation. ■ Machine Specifications (By Model) 1️⃣ Compact Wire Insulation Stripper 🔹 Usage: Strips insulation and extracts copper wires from wires and cables. 🔹 Features: - Adjustable stripping settings based on wire diameter. - Smooth stripping process ensures high-purity copper recovery. - Easy to maintain and operate. 2️⃣ Compact Wire Separation & Sorting System 🔹 Usage: Separates and sorts shredded cables while removing impurities. 🔹 Features: - Uses an air-jet sorting system for efficient separation. - High dismantling capability. - Simple and easy operation. - Extremely durable for heavy-duty use. 3️⃣ Compact High-Power Cutter (Shearing Machine) 🔹 Usage: Cuts large-diameter cables and special wires. 🔹 Features: - High-torque motor delivers powerful cutting force. - Smooth processing of thick cables. - Maintenance-free with long service life. These compact stripping machines and high-power cutters help improve productivity in the recycling industry and promote efficient resource utilization. Interested in installing a wire recycling system? Contact us for more details!

Waste Compactor "TKK-TBR-120" – Achieving CO₂ Reduction and Transport Efficiency

The "TKK-TBR-120" is a semi-automatic waste compactor engineered specifically for industrial waste compression molding applications. This machine efficiently compresses bulky industrial waste—including scrap metal, plastics, paper, and textiles—into dense, manageable bales, reducing its volume to improve transport efficiency, lower costs, and minimize CO₂ emissions. Manufactured under Japan’s strict quality standards, it ensures both durability and operational efficiency. We are currently planning to establish local manufacturing and maintenance hubs in Thailand, aiming to facilitate smoother local adoption and operation. Our mission is to introduce Japanese recycling technology to Thailand, supporting the development of a sustainable industry. ■ Key Features ✅ High-Efficiency Compression Molding – Equipped with a large-capacity hopper, allowing fast and efficient processing of large volumes of waste. ✅ Cost Reduction – Compression molding significantly reduces waste volume, decreasing the number of transport trips required. ✅ CO₂ Reduction – Efficient compression leads to lower CO₂ emissions from waste transportation. ✅ High-Durability Structure – Made with high-strength steel for the frame, press plate, and gate frame, ensuring long-lasting performance. ✅ User-Friendly and Safe Operation – Semi-automatic control reduces workload and enhances worker safety. ■ Specifications - Model: TKK-TBR-120 - Compression Force: 120 tons - Processing Capacity: Approx. 350–400 kg/h (depending on material) - Compression Chamber Size: 1200W × 750H × 1400L mm - Bale Size: 1000W × 750H × Variable Length (max 1400L) - Power Supply: AC 200V (Three-phase) - Machine Weight: Approx. 6,200 kg ■ Ideal for - Recycling Companies - Waste Management Companies - Manufacturing Industry (Automotive, Electronics, Food, etc.) - Logistics and Warehouse Industry The "TKK-TBR-120" waste compactor enhances transport efficiency and contributes to CO₂ reduction, making it an eco-friendly waste management solution. Download the PDF or Contact Us for more details!

Shredder Series – Enhancing Productivity with the Optimal Shredder

Shredders are essential machinery for crushing and processing various materials—such as metals, plastics, paper, textiles, and industrial waste—to streamline recycling and disposal operations. We offer a wide range of shredders, including single-shaft, dual-shaft, four-shaft, primary shredders, and mobile shredders, to suit various materials, processing capacities, and final product requirements. Each model is engineered for high durability, low operational cost, and superior shredding performance to boost overall system productivity. By introducing advanced Japanese shredding technology to Thailand, we aim to enhance efficient waste processing and resource recovery, reducing environmental impact and promoting sustainable recycling. We are committed to providing the best shredding solutions tailored to customer needs to create a cleaner environment. ■ Key Features ✅ Various Shredder Models Available – Choose the optimal shredder based on the type and volume of materials to be processed. ✅ High Processing Capacity – Powerful shearing force and optimized design ensure smooth high-volume processing. ✅ Energy-Saving Design – High-efficiency motors and drive systems reduce energy consumption. ✅ Foreign Object Protection – Equipped with a safety clutch and high-torque drive to minimize risks from foreign materials. ✅ Easy Maintenance – Blades can be easily replaced to maximize uptime and efficiency. ■ Types of Shredders 1. Single-Shaft Shredder A high-speed rotor combined with stationary blades delivers consistent and fine shredding output. The built-in screen enables size adjustment, making it ideal for applications that require finely shredded and consistent materials. Popular Models: Jupiter, Polaris, Comet, Micromat, Universo 2. Dual-Shaft Shredder Utilizes two rotating shafts to apply powerful shearing force, making it suitable for hard-to-shred materials such as roll materials, fishing nets, FIBC bags, and ropes. Its durability and resistance to foreign objects make it highly reliable. 3. Four-Shaft Shredder Equipped with four shafts for increased shearing power, this model allows for precise control of shredded material size using a built-in screen. It is ideal for processing tough and complex waste materials. 4. Primary Shredder Designed for coarse shredding, it features a dual-shaft tearing mechanism to achieve a rough shredded size of 200–250mm, reducing the production of excessively small particles and improving the efficiency of the sorting process. Its easy blade replacement system enhances maintenance efficiency. 5. Mobile Shredder A fully mobile shredder that can be moved flexibly. Powered by a 770 HP engine, it delivers a shredding capacity of up to 50 tons per hour, making it ideal for landfill operations, disaster waste processing, and flexible on-site applications. Optimized Shredding Solutions for Maximum Productivity Selecting the optimal shredder is essential to maximize productivity, reduce operating costs, and improve overall waste management performance. Download the PDF or Contact Us for more details!

AI-Powered Sorting Robots – Automating Waste Sorting and Promoting Resource Recovery

AI Sorting Robots are automated systems that replace manual labor in the sorting process. Equipped with high-resolution cameras and advanced AI algorithms, these robots instantly detect, identify, and classify multiple waste types with exceptional precision. Capable of automatically sorting up to six different types of materials, the system can operate 24/7, helping address labor shortages and reduce employment costs. This cutting-edge solution enhances both resource recovery efficiency and operational productivity while reducing reliance on manual labor. We aim to bring cutting-edge Japanese AI sorting technology to Thailand to support waste-to-resource transformation and reduce environmental impact. With precise AI-driven automatic sorting, we believe this technology will enhance recycling efficiency and contribute to a sustainable society. It's a solution worth considering for Thailand's recycling and industrial sectors. ■ Key Features ✅ Automated System Replacing Manual Sorting – High-accuracy AI recognition technology provides sorting precision on par with or better than human sorting. ✅ 24/7 Operation – Reduces worker burden and ensures a stable production line. ✅ Vacuum Suction Gripper – Picks objects up to 4.5 kg and sorts up to six types of materials. ✅ AI Learning Capability – Continuously improves sorting accuracy by accumulating recognition data. ✅ Customizable Sorting Targets – AI can be trained to sort materials like colored containers, residue-filled containers, plastic cups, and more to replicate manual sorting patterns. ■ Specifications 🟢 AI Benkei • Gripper: 1 • Max Picks: 20/min • Target Items: Heavy (~5–15 kg) • Global Units Installed: 100+ • Supported Waste: Construction waste, beverage bottles • Accuracy: 98% • Install Time: 3 days • Operation: 24 hours/day, 365 days/year 🟢 AI Musashi • Grippers: 2 • Max Picks: 200/min (combined) • Target Items: Lightweight (~0–0.45 kg) • Materials Supported: 50+ types • Accuracy: 98% • Install Time: 3 days • Operation: 24 hours/day, 365 days/year AI Sorting Robots represent the next generation of waste-sorting systems—delivering unmatched accuracy, operational efficiency, and sustainable resource recovery across industries. Download the PDF or Contact Us for more information!

Screening Technology – A Solution That Prevents Clogging and Ensures Stable Sorting Performance

Screening machines play a crucial role in separating waste and recyclables based on particle size, ensuring efficient downstream processing. In particular, materials with high moisture content often cause clogging in conventional systems. Urethane screens effectively eliminate this issue, ensuring stable and continuous operation. When combined with an air separator, this screening technology further improves sorting efficiency and maximizes resource recovery rates. We aim to introduce advanced Japanese screening technology to Thailand to enhance recycling process efficiency and promote effective resource utilization. We believe this high-precision screening solution will contribute significantly to improving productivity in waste processing and recycling in Thailand. ■ Key Features ✅ Urethane screens prevent clogging – Ensures stable sorting even with high-moisture materials ✅ High-precision particle separation – Improves material purity through uniform and accurate sorting ✅ Capable of high-volume processing – Suitable for handling industrial waste and recyclable materials ✅ Integration with air separators – Enhances overall sorting efficiency and optimizes material recovery ✅ Adaptable for various applications – A range of screen types available to meet diverse sorting requirements ■ Types of Screens 1. Vibrating Screen Utilizes advanced vibration technology to significantly boost sorting efficiency. Ideal for applications requiring fine particle separation. 2. Disc Screen DS Features a unique anti-wrapping design that prevents long materials such as films or ropes from getting entangled, ensuring smooth and stable operation. 3. Disc Screen DRS Built with a special structure to minimize clogging and provide high-precision sorting. Suitable for high-efficiency and continuous processing needs. Advanced screening technology enhances sorting accuracy and material recovery, helping industries maximize productivity while minimizing operational disruption. Download the PDF or Contact Us for more details!

Air and Optical Sorters – Supporting Productivity and Resource Recovery Efficiency

Sorting machines are essential for efficiently separating waste and recyclable materials. Our air-based and optical sorters can be tailored to suit the characteristics of the input materials and final product requirements, offering high sorting accuracy and increased processing capacity. We aim to introduce advanced Japanese sorting technologies to Thailand to promote resource recovery and reduce environmental impact. By adopting high-precision sorting systems, recycling efficiency can be significantly improved, contributing to the realization of a sustainable circular economy. Please consider how this technology can benefit the recycling and industrial sectors in Thailand. ■ Key Features ・High-precision sorting with air and optical technology – Optimized sorting methods tailored to each material ・High throughput capacity – Up to 200 m³/hour (air-based sorters) ・Accurate resource recovery – Automatically identifies and separates materials that are difficult to sort manually ・Improved working environment – Equipped with dust collection systems to reduce airborne particles during operation ・Versatile applications – Suitable for plastics, metals, glass, fuel materials, and more ■ Types of Sorting Machines 1. Air Sorters Use airflow dynamics to instantly classify lightweight and dense materials. Capable of handling high volumes and reducing dust, contributing to a cleaner work environment. - Air Sorter SDS: High throughput, high accuracy, dust-free operation - Air Sorter SDi: Compact size with high processing capability - Zigzag Air Sorter: Designed for small materials, ideal for plastic and metal recycling 2. Optical Sorters Equipped with high-performance cameras and multiple sensors, these machines identify materials by colour, shape, and composition, automating complex sorting tasks and optimizing the recycling process. - Optical Sorter Clarity: A high-performance model offering optimal sorting solutions - Optical Sorter AUTOSORT: World-leading technology that instantly analyzes material type, colour, and shape The introduction of sorting machines helps enhance resource recovery and significantly improve productivity. We are ready to recommend the optimal model to meet your needs. Download the PDF or Contact Us for more information!

High-Precision Metal Separator – For Pure Iron Recovery and Efficient Resource Use

The high-precision metal separator is a system designed to sort magnetic materials recovered by magnetic separators into 100% magnetic material (Clean FE) and partially magnetic material (FE+MIX). By optimally adjusting three key points in the sorting process, the system effectively removes impurities and achieves high-purity iron. This solution significantly reduces the need for manual sorting, improving operational efficiency and increasing resource recovery rates. We aim to introduce Japan’s advanced high-precision metal sorting technology to Thailand to support the improvement of iron resource purity and enhance recycling efficiency. ■ Key Features 1. Sorting of High-Purity Iron (Clean FE) Efficiently separates 100% magnetic material (Clean FE) from partially magnetic material (FE+MIX). The sorted Clean FE contains less than 0.3% copper and can be reused as high-purity iron resource. 2. Reduction of Manual Sorting Automatically removes non-magnetic materials such as motor cores, cables, and batteries. Eliminates the need for manual impurity removal, reducing labor requirements and improving workflow efficiency. 3. Improved Maintainability & Reduced Consumables Very few consumable parts – the only one being the conveyor belt, which can be replaced by two workers in just 30 minutes. Enables long-term stable operation and helps reduce maintenance costs. ■ Product Specifications TA-P0600 (Compact Model) ・Machine Dimensions: W1,820 × L4,775 × H3,630 mm ・Processing Capacity: Approx. 5 tons/hour ・Input Size: Up to 150 mm TA-P01000 (Large Model) ・Machine Dimensions: W1,660 × L10,790 × H3,400 mm ・Processing Capacity: Approx. 40 tons/hour ・Input Size: Up to 150 mm ■ Applications ・Sorting of mixed metals recovered from magnetic separators ・Recycling of discarded home appliances ・Processing of motor and automotive scrap The high-precision metal separator contributes to purifying iron resources and streamlining recycling operations, promoting effective resource recovery. Download the PDF or Contact Us for more information!