List of Industrial Robots products
- classification:Industrial Robots
121~150 item / All 6936 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Presentation of explanatory materials on JIS and ISO standards. We propose suitable safety barriers from a rich product series! Free rental of demo kits.
- Other safety and hygiene products
Reproducibility ±1nm, XY axis 100 µm + Z axis 10 µm stroke, optimal for transmitted light with a 50 mm aperture.
- Actuator
- Piezoelectric Devices
- Cartesian Robot
No construction required! A transport robot that can be used in the current environment.
- Transport and handling robots
CarryBot is the ideal delivery solution for environments such as micro-fulfillment centers and factories.
- Transport and handling robots
Reception and guidance robot equipped with AI functions.
- Other industrial robots
Adopting a shelf-type rack! Centralized management of high-speed inbound and outbound operations for case goods with simple operation.
- Transport and handling robots
- Other conveying machines
- rack
Introducing the flexible and clean conveyor system "Excel Flow" using rollers.
- Other conveying machines
- Transport and handling robots
Utilizing advanced technology! We offer a wide variety of options, including maximum load capacity and transfer methods.
- Other conveying machines
- Transport and handling robots
Store items in bucket units! The structure of the rack itself is designed for space-saving.
- Transport and handling robots
- Other conveying machines
- rack
High versatility and unique drive system! No roller play, smooth transportation.
- Transport and handling robots
- Other conveying machines
- Conveyor
Low noise and clean design! Ensures accurate sorting of various items from thin materials to bags and boxes.
- Transport and handling robots
- Other conveying machines
- Sorting machine
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Explaining examples such as drink can casing and picking, and palletizing of oricon!
- Transport and handling robots
- Other industrial robots
- Picking robot system
Create a robot program that skillfully unhooks like a human hand!
- Transport and handling robots
AMRs can automatically navigate around obstacles while moving towards a set destination, allowing them to share pathways with people.
- Transport and handling robots
It is possible to introduce them in a space-saving and cost-effective manner compared to introducing separate robots for each.
- Transport and handling robots
- Palletizer
Compared to manual work, work efficiency has improved! Equipped with a hand tool that can pick up 6 cans at a time.
- Other industrial robots
- Picking robot system
Automate the stacking process with robots while conducting weight inspections using scales!
- Transport and handling robots
- Palletizer
Disposing of cutting chips is tough... This is a cutting chip cart transport AGV.
- Transport and handling robots
@mobi has significantly upgraded its features! It has become easier to use.
- Transport and handling robots
Adoption of @mobi for equipment inspection robots for superconducting linear trains.
Panasonic Advanced Technology Co., Ltd., Tokai Passenger Railway Company, and Suzuki Motor Corporation have developed a prototype of an equipment inspection robot (hereinafter referred to as "Minervα") that automatically conducts visual inspections to improve the efficiency of inspection and maintenance operations for various mechanical equipment supporting the operation of the superconducting linear train. This robot adopts the software package "@mobi" provided by Panasonic Advanced Technology Co., Ltd., making it the first in the railway industry to do so, and it is capable of autonomous movement. It is designed to safely navigate in narrow spaces autonomously. Furthermore, by incorporating robotic arm control functions and automatic charging capabilities, it automates the visual inspection process. In the future, it is expected that the equipment inspection robot will be deployed along the Linear Chuo Shinkansen line to conduct visual inspections automatically, thereby reducing the time, effort, and burden associated with personnel traveling to the site for inspections.
Manage multiple AMRs collectively with @fleet. With visualization and optimization, take mobile robot operations to the next stage.
- Transport and handling robots
We will exhibit at the 2025 International Robot Exhibition (iREX2025) from December 3 (Wednesday) to December 6 (Saturday), 2025.
From December 3 (Wednesday) to December 6 (Saturday), we will be showcasing Panasonic Advanced Technology's innovative technologies and products at the "2025 International Robot Exhibition (iREX2025)" held at Tokyo Big Sight. Under the theme "Key Software & Devices for Autonomous Mobile Robots," we will introduce software and devices that accelerate on-site autonomy with a wealth of implementation experience and robust support. We invite you to see our innovative technologies and products firsthand and experience future solutions. We sincerely look forward to your visit. In this exhibition, we will introduce the following solutions: 【New Version】@mobi – Software package for autonomous mobile robots, enabling "autonomous mobile robots" in a short period. 【New Release】@seguro wes – Functionally safe wireless emergency stop device, balancing wireless functionality and safety. 【New Product】@mapper – Easy point cloud acquisition device, realizing visualization of on-site 3D space. 【Exhibition Booth Information】 Panasonic Holdings (East Hall 7, Booth Number: E7-34)
Achieves high precision and high-speed operation while being compact. A highly reliable 6-axis positioning system.
- Actuator
- Other industrial robots
- encoder
Single-sided and double-sided, upright and low-profile, high-precision alignment routine.
- Optical Experimental Parts
- Other industrial robots
- Actuator
Enhancing the accuracy of research and development! Introduction to a special feature on "positioning" products for research environments.
Under strict standards and environments, high precision and reproducibility are required in research and development. At PI, we have been engaged in the development and manufacturing of components, systems, and solutions that can be smoothly integrated into existing experimental environments, backed by over 50 years of experience. With compatibility with major software such as LabVIEW, MATLAB, and Python, as well as an open interface, smooth integration into various research environments and flexible customization are possible. We have picked up a lineup of recommended products for implementation in research settings.