HD-1500 Series Autonomous Mobile Robot
Introducing the HD-1500. Our Strongest Mobile Robot.
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The Omron LD Mobile Robot is a self-navigating Autonomous Mobile Robot (AMR) designed for dynamically moving material in challenging environments that may include confined passageways as well as dynamic and peopled locations. Unlike traditional autonomously guided vehicles (AGVs), Omron Mobile Robot requires no facility modifications, such as floor magnets or navigational beacons, saving users deployment costs. The LD includes Omron’s proprietary software and controls allowing it to intelligently navigate around people and unplanned obstacles, that render traditional AGVs incapacitated and it can be programmed and functional within a day. Designed for developers, integrators, and end-users the system can be customized for a variety of applications and payloads. Manufacturing, warehousing, clean tech and laboratories are just a few environments ideal for the mobile robot.
Compatible with other OMRON robots, mobile robot fleets and MES systems.
Optimizes routing and adapts to changing conditions on the fly.
Works safely with people and has an intuitive setup.
Our mobile robots are fully autonomous intelligent vehicles that increase throughput, reduce machine dwell time, eliminate errors, improve material traceability, and allow employees to focus on tasks that require complex human skills. What’s more, unlike traditional AGVs, our mobile robots navigate by the natural features of the facility and require no expensive facility modification.
OMRON mobile robots are easy to get up and running, requiring no construction such as the installation of magnets, and minimal programming. In addition, our software integrates with your other systems so you can get the solution up and running in minimal time.
OMRON’s mobile solutions are extremely versatile and can be adapted to perform a wide variety of tasks and applications. With payloads ranging from 60kg to 250kg available in multiple form factors and protection ratings, LD series mobile robots are perfectly suited for most small to midrange material transport applications. We’re also scalable, so we can grow with your business.
Designed to meet the industry’s latest requirements, our mobile robots interact with people to promote a collaborative, safe working environment. Safety lasers and rear facing sensors allow our robots to detect obstacles in their path to prevent collisions.
Key Features:
Safety Features:
AGVs require a predefined path to follow, either a network of magnetic lines on the floor or beacons on the walls. So although AGVs allow modifications to production lines, facilities will need to install new equipment every time the AGV path is changed, leading to downtime and extra costs.
Unlike AGVs, which will stop at obstacles indefinitely, AMRs avoid stationary or moving obstacles and automatically reroute themselves when necessary. AMR paths automatically change without human intervention, making operations more flexible and decreasing total cost of ownership.
AMRs can safely navigate without the use of floor magnets or wall-mounted beacons. An AMR will first create a baseline map of a facility using built-in sensors, then will constantly detect its surroundings. When processes change, AMRs can easily change as well, creating networks of new routes or being reassigned to new tasks.
1 Safety std: ISO 12100, ISO 14121-2, ISO 13849-1, IEC61010(battery only), IEC 60950(battery only), EN 1525, ANSI B56.5 Part 3, JIS D6802, IEC 60204
Robust Navigation with LD Acuity Localization.
Acuity provides an additional method of "localization" to the onboard laser, to allow the robot to operate in frequently changing environments. It identifies overhead lights and overlays the "light map" with the "floor map" It also allows the robots to move easily across wide-open areas in large warehouses.
Our LD Electro-Static Discharge (ESD) Skin is a protective measure to protect both the robot and ESDS (ESD Sensitive) items within the environment to which the robot operates from damage due to the buildup and discharge of static electrical energy created by field strengths.