Warehouse Robots for automation, research, security, logistics, education and industrial projects across Latin America, with a practical focus on applications, integration and quote-based procurement.
Warehouse Robots
Warehouse Robots for Latin America
This page provides practical information about Warehouse Robots for buyers, integrators, universities, distributors and technical teams across Latin America. The focus is the product: what it does, where it is used, which specifications matter and how to evaluate it for real deployments.
Main applications
Warehouse Robots can support manufacturing, mining, energy, agriculture, education, healthcare, security, retail, hospitality, research and logistics projects. The right choice depends on operating environment, task type, autonomy, payload, mobility, sensors, software, maintenance access and integration requirements.
Technical selection criteria
Before requesting a quote, compare payload, battery life, speed, environmental rating, precision, connectivity, ROS or SDK compatibility, camera and LiDAR options, arms, hands, charging stations, spare parts and documentation. Industrial projects also require operator training, system integration planning and after-sales support.
Regional procurement and deployment
Latin America projects often require planning for import, lead time, warranty, interface language, technical documentation, training and accessory availability. A strong procurement process defines the use case, site conditions, budget, safety requirements and success metrics before selecting a model.
FAQ
How should a model be selected? Start with the task, environment and autonomy level. Can it be used for research? Many models fit labs and universities when they include SDKs, documentation and configurable sensors. Does purchase require a quote? Advanced robotics is commonly quoted by configuration, accessories, logistics and support needs.
Summary
Warehouse Robots can modernize operations in Latin America when evaluated by application, specification, integration plan and total project cost rather than appearance or brand alone.
What are Keenon warehouse robots?
Keenon warehouse robots are a family of autonomous mobile robots (AMRs) developed by KEENON Robotics Co., Ltd. for heavy-load material handling in industrial, commercial, and healthcare environments. The current lineup includes the S100 (100-120 kg payload, 8-hour operation with 15-second battery swap) and the S300 (300 kg payload for heavy industrial applications). Both use LiDAR and stereo vision SLAM-based navigation for autonomous operation in warehouses, factories, hospitals, hotels, and large commercial facilities. The S100 operates at 1 m/s maximum speed, has dimensions of 92.5×62×128.2 cm, and supports plug-and-play same-day deployment with pre-installed operating software.
How does the Keenon S100 navigate in a warehouse?
The Keenon S100 uses Simultaneous Localization and Mapping (SLAM) with a LiDAR sensor that emits 360-degree laser pulses to measure distances to surrounding walls and obstacles, building a precise geometric map of the facility. Once mapped, the robot uses this map to determine its real-time position and plan optimal routes to task destinations. Stereo vision cameras supplement LiDAR at close range and for objects that laser sensing may not reliably detect. A 360-degree obstacle detection system covering the full robot perimeter, combined with configurable safety zones that progressively reduce speed as people or obstacles approach, enables safe operation in dynamic environments shared with human workers.
Why should facilities use Keenon warehouse robots instead of human transport workers?
Keenon warehouse robots provide several operational advantages over human material transport. They operate continuously up to 24 hours per day through battery swap capability without the breaks, fatigue, shift limits, and injury vulnerability of human transport workers. The S100's 100-kilogram payload handling eliminates the ergonomic injury risk from manual heavy lifting, which is among the most common workplace injury categories in warehouse environments. They deliver consistent transport throughput without variation from staffing gaps, shift changes, or absenteeism. And they free human workers to focus on tasks requiring judgment, dexterity, or customer interaction, which are more difficult to automate and where human capability delivers greater value.
What is the difference between the Keenon S100 and S300?
The primary difference is payload capacity: the S100 handles 100 to 120 kilograms (220 to 264 pounds) while the S300 handles up to 300 kilograms (661 pounds). Both use SLAM/LiDAR autonomous navigation, modular cargo tray systems, and industrial-grade construction for continuous multi-shift operation. The S100 is appropriate for facilities where individual transport loads stay under 120 kilograms, covering most internal logistics, hospital supply, and light manufacturing applications. The S300 is appropriate for heavy manufacturing components, bulk supply delivery, large hospitality property logistics, and any application where the load weight exceeds the S100's capacity. Both support multi-robot fleet coordination through Keenon's fleet management system.