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Cart Robot - List of Manufacturers, Suppliers, Companies and Products

Cart Robot Product List

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JetBot Mecanum equipped with Jetson Nano

JetBot Mecanum equipped with Jetson Nano

Research and development cart robot/AGV: This is a four-wheel drive cart robot based on the JetBot project proposed by NVIDIA.

Development on the Jetson Nano can be conducted using Jupyter Notebook, a web browser-based development and analysis tool. It can be utilized in a wide range of fields as a learning tool for GPU computing, as well as a base platform for research, development, and implementation that combines information processing with the driving performance of large cart robots. This product features mecanum wheels as the driving wheels. In addition to moving forward and backward and turning left and right, it is also capable of lateral movement, making it particularly well-suited for body control using object recognition. Its ability to handle delicate control, such as slight position adjustments and precise approaches to targets, is a notable characteristic. By enabling modern information processing technologies, such as object recognition using machine learning, to be output immediately to practical large cart robots rather than being confined within a computer, it serves as an effective tool for rapid research and development with implementation in mind.

  • Other industrial robots
  • Trolley
  • Other conveying machines

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Research and Development / Academic Purpose: Trolley Robot

Research and Development / Academic Purpose: Trolley Robot

Can be used outdoors; anything can be placed on top. As a robot chassis, it can be utilized for various applications such as AGV, AMR, and UGV. Autonomous driving functionality can also be added.

Our company plans to apply the technology of electric wheelchairs, which we have cultivated for about 50 years, to develop a base unit (electric mobility base unit, electric cart) that utilizes the know-how of electric wheelchairs. This base unit is intended to serve as the mobility platform for robots that can be used in various applications such as agriculture, delivery, and civil engineering assistance. It can be utilized in various applications as a robot chassis, including AGVs, AMRs, and UGVs. So far, it has been used as a base for collaborative robots, transport robots, autonomous delivery robots, snow removal robots, and agricultural robots. For example, it is possible to equip it with the autonomous driving functions developed by your company and operate it. What applications would you like to use this mobility platform for? 【Features】 ■ Independent motors for left and right rear wheels ■ Suspension in all four directions ■ Front wheel steering with power steering ■ Rust-proof, waterproof, and dust-proof ■ Low center of gravity for high driving stability ■ Capable of climbing and descending slopes of 8° with a load of 100 kg ▼ Many use cases are currently available on the special website! For more details, please refer to the PDF materials or feel free to contact us.

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  • Trolley
  • Transport and handling robots
  • Other industrial robots

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3WD 48mm Omni Wheel Robot [Trolley Robot]

3WD 48mm Omni Wheel Robot [Trolley Robot]

[Research and Development Robot] A small cart-type robot equipped with three-wheel drive and omni-wheels using infinite rotation servos.

This product is equipped with omni-wheels, which eliminates the need for complex steering mechanism control, allowing for omnidirectional movement by simply controlling the rotation direction of each wheel. The drive for the wheels uses infinite rotation servos, which are configured with fewer pins than motors using encoders, making it easier to expand compared to other Nexus robots. 【Features】 ■ Equipped with an Arduino-compatible board and IO expansion board ■ Development environment available for free using "Arduino IDE" ■ Three ultrasonic sensors installed around the unit ■ Japanese manual available *Please feel free to contact us for more details.

  • Other industrial robots
  • Trolley
  • Other conveying machines

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Development of Automated Transport System

Development of Automated Transport System

Introduction to joint research with Shikoku Vocational Ability Development University.

We are engaged in joint research with Shikoku University of Occupational and Environmental Health on the development of an "automated transport device system." Our goal is to complete a system that controls the movement of a cart robot via a tablet device. Currently, we have achieved movement control through route specification using touch operations, and the basic system for movement control using sensors and cameras has been completed. In the future, we plan to integrate the entire system and enhance its completeness as a product. [Overview] - As an automated transport device system, we are developing a cart robot using mecanum wheels and an operation terminal to be mounted on it (the cart robot uses a commercially available product). - The cart robot is being developed with the goal of autonomous movement by specifying routes based on a map and using sensor position measurement. - The operation terminal is implemented primarily with cart robot control functions. - We aim to enable communication between the cart robot and the operation terminal via Bluetooth for remote operation. *For more details, please refer to the external link page or feel free to contact us.

  • Trolley

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