TOYOROBO Product Lineup

Sustainable and safe last-mile delivery in response to the deepening labor shortage and re-delivery issues. TARS is an indoor and outdoor delivery robot equipped with internationally recognized L4 autonomous driving technology and proven last-mile delivery performance. Through multi-sensor fusion combining LiDAR, cameras, and IMU, it achieves stable operation even in complex outdoor environments. Based on data accumulated from international demonstrations, it features an all-weather body design that accommodates various passage environments such as sidewalks, curbs, manholes, and crowds, as well as a remote monitoring system and 5G low-latency communication, ensuring safe and reliable delivery of packages.

• Food Conveyor Equipment
• Medicine Delivery Equipment
• Other food transport equipment

The AGF, which performs loading and unloading operations regardless of day or night through autonomous driving, simultaneously achieves cost reduction and productivity expansion by improving labor efficiency, safety, and operational accuracy. It is designed for anyone to operate quickly by adopting laser SLAM navigation technology and equipping it with mapping, positioning functions, and high-performance navigation capabilities. It autonomously determines the optimal route, automatically transports cargo while avoiding obstacles, and returns to the charging station when charging is needed, resuming work after recharging.

• Other conveying machines
• Transport and handling robots
• palette

High-density storage and fast transportation of pallets through a transport shuttle and dedicated rack system with a vertical lift. This robot automates the transportation, storage, loading and unloading, and sorting of pallets, creating a high-density storage environment that effectively utilizes the upper space, which often becomes dead space in traditional warehouses. It can maneuver and transport in narrow aisles/spaces, maximizing the use of limited areas to increase storage capacity through vertical storage at high altitudes, significantly reducing the workload on human operators, and improving efficiency between processes. This is particularly beneficial in environments handling large and heavy items, where safety and work speed are greatly enhanced. It demonstrates stable processing capabilities even in fluctuating environments such as e-commerce logistics with increasing SKUs and volatile demand, as well as parts warehouses with a large number of inventory items. Additionally, it can maximize the use of existing warehouse space even with layouts that minimize aisle width. By combining multi-tier racks, it maximizes storage capacity in limited areas, proving highly effective in space-constrained environments such as urban warehouses and refrigerated storage. By collaborating with a control platform, it achieves automatic optimization of inventory placement and efficiency in inbound and outbound planning through the operation of multiple units.

• Other conveying machines
• Transport and handling robots
• Other frozen and refrigerated storage

By utilizing buffer storage (temporary storage and replenishment), it is possible to achieve high-density and high-speed retrieval of frequently shipped varieties and seasonal products without returning them to the warehouse, significantly improving picking speed and efficiency. The i-BOX, which can effectively utilize three-dimensional spaces such as dead space and deformed space, can collaborate with various robots and equipment, including CHS and ACR, and is active across a wide range of industries. The entire series of operations, including sorting, shelving, picking, transporting, retrieving, and return placement, is automated, greatly enhancing the efficiency of warehouse operations. High-frequency SKUs and seasonal products can be stored at high density in the buffer (primary storage and replenishment) area without returning to the warehouse, allowing for rapid retrieval at the necessary timing. This improves the responsiveness to the unique fluctuations of e-commerce, significantly increasing picking speed and work efficiency. Additionally, by maximizing the use of three-dimensional spaces, including dead space, it achieves high storage efficiency even in limited warehouse areas. It also flexibly adapts to the management of diverse small lots in parts warehouses and the short delivery operations of e-commerce logistics.

• Sorting machine
• Transport and handling robots
• Other industrial robots

The ACR autonomous case handling robot is an autonomous mobile robot that fully automates the picking of totes from high racks in logistics warehouses and manufacturing plants, as well as automatic storage, transportation, shipping, and loading and unloading tasks at stations. By replacing traditional manual labor performed by operators, ACR consistently handles storage, picking, and transportation, resulting in increased productivity through labor reduction, improved work accuracy, and enhanced operational efficiency. It shifts from the conventional task of "people searching for products" to a system where "products reach people." ACR, which can maximize storage efficiency, storage density, and operational flexibility, is a next-generation robotics solution that addresses storage and transportation challenges across various industries, including logistics, manufacturing, retail, and e-commerce. With its scalable configuration and high versatility, it is a robot that offers significant benefits for automation and digital transformation in the field. It can collaborate with various logistics equipment such as shelves, robotic arms, and multifunctional workstations, enabling the automation of the entire process within the warehouse.

• Transport and handling robots
• Picking robot system
• Other conveying machines

This robot automates the transportation, storage, loading and unloading, and sorting of pallets, and can create a high-density storage environment that effectively utilizes the upper space, which tends to become dead space in conventional warehouses. It can turn and transport in narrow aisles/spaces, increase storage capacity through vertical storage up to high places by maximizing the use of limited areas, and significantly reduce the workload on human workers, thereby improving efficiency between processes. This is particularly beneficial in environments that handle large and heavy cargo, where safety and work speed are greatly enhanced. By automating pallet-based transportation tasks, APR simultaneously achieves labor cost reduction and optimization of logistics efficiency, significantly contributing to ROI improvement. Its design allows for the direct use of existing pallet rack specifications, enabling smooth implementation with minimized new equipment investment. The ability to achieve implementation effects with just the addition of the robot body and system makes it ideal as a first step toward gradual automation. Additionally, it greatly enhances the efficiency and stability of material handling as a core handling tool in automated logistics systems.

• Other conveying machines
• Transport and handling robots
• palette

The method of autonomous driving (AMR) that maps the environment using lasers or cameras, either in conjunction with or without a code, automatically calculates the optimal route using AI technology and, when it detects obstacles or congestion, automatically selects a detour or adjusts speed and distance, allowing for collaborative work with humans. It is an autonomous transport device that can slide under transported items (fixed shelves or pallets) in a low-profile (underneath) manner and lift them up for transport. Thanks to seamless integration with upstream systems such as WMS (Warehouse Management Systems), implementation can be completed in a short period. By entrusting simple transport tasks to AGVs/AMRs, it demonstrates flexibility and high performance in small-lot and diverse transport. AGVs, which are suitable for "transporting fixed items along a fixed route accurately," and AMRs, which are suitable for "transporting flexibly and autonomously according to the situation," can adapt flexibly to the types of transported items and work environments, ranging from heavy to lightweight items and collaborative work with humans.

• Other conveying machines
• Transport and handling robots
• Other industrial robots

Unlike belt conveyors, the transport cart (slider) can be individually controlled, dramatically shortening the takt time of manufacturing and assembly lines for electronic components and medical products, where diverse variable production and high-speed processing are required. Direct drive by linear motors enables very fast movement to the next process even over short distances, allowing for high-precision stopping and positioning. It also offers high convenience for direct work on the slider and for changing the direction of items during transport. Our proposed linear conveyor realizes the introduction of a "manufacturing line with a higher degree of layout freedom and high production efficiency," which was difficult to achieve with conventional transport systems. By enabling flexible settings such as high-precision stopping and positioning through direct drive, control of forward and backward movement, acceleration and deceleration, and length adjustment of the transport line utilizing the advantages of a modular structure, we meet the needs of various industrial sectors, contributing to significant efficiency improvements and increased productivity, as well as space-saving and the establishment of low-volume, high-variety production lines.

• Other conveying machines
• Conveyor
• Sorting machine

Automated transportation using two-dimensional codes (such as QR codes) involves reading codes placed on the floor with a camera to recognize the current position and route for movement. Compared to magnetic tape systems, it allows for easier layout changes and enables high-precision position control. This automated transport equipment is a low-profile (underneath) system that can slide under transported items (fixed shelves or pallets), lift them up, and carry them. By automating the transportation of pallets, cases, and totes, the logistics efficiency within warehouses is significantly improved, achieving labor savings and enhanced safety through the introduction of AGVs and AMRs. A group of robots centered around AGVs and AMRs streamlines movement between processes, realizing logistics efficiency, labor savings, and improved safety. The latest robotics utilized in warehouse automation directly contributes to improved inventory management accuracy, reduced shipping lead times, and the promotion of logistics digital transformation, resulting in sustainable business improvements and high investment returns.

• Other conveying machines
• Transport and handling robots
• palette

"RoboSweep" is an autonomous cleaning robot that automates floor cleaning in logistics facilities and factories, supporting efficient hygiene management. It uses AI and sensor technology to avoid obstacles while selecting optimal routes, automatically performing tasks from garbage collection to washing and drying. It contributes to addressing labor shortages and reducing the burden of work. It is optimized for use in various indoor environments such as offices, commercial facilities, hospitals, and hotels. 【Features】 ■ AI navigation & autonomous driving ■ High-efficiency cleaning performance, smart integration & remote operation ■ Energy-saving design, customizable for various applications ■ Compatible with diverse flooring materials *For more details, please download the PDF or feel free to contact us.

• Industrial Vacuum Cleaners
• Other industrial robots