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robot Product List and Ranking from 889 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

robot Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

  1. 因幡電機産業 産機カンパニー Osaka//Trading company/Wholesale
  2. null/null
  3. ABBジャパン Tokyo//Industrial Electrical Equipment
  4. 4 KOYAMA CO., LTD. Head office, Tochigi branch, Tokyo branch, Kawasaki branch, Shizuoka branch, Osaka branch, Nagareyama local office, 4 overseas local companies (the Philippines, Shanghai, Hong Kong, Vietnam) Tokyo//Trading company/Wholesale
  5. 5 ABB ロボティクス&ディスクリート・オートメーション事業本部 - 産業用ロボット関連製品 Tokyo//robot

robot Product ranking

Last Updated: Aggregation Period:Jun 10, 2026~Jul 07, 2026
This ranking is based on the number of page views on our site.

  1. Reduce the burden on site! Painting hanger system & inspection and transport robot.
  2. "KachaKa Evo" - the new model of the number one AMR in the domestic market! KOYAMA CO., LTD. Head office, Tochigi branch, Tokyo branch, Kawasaki branch, Shizuoka branch, Osaka branch, Nagareyama local office, 4 overseas local companies (the Philippines, Shanghai, Hong Kong, Vietnam)
  3. All-in-one Smart 3D Sensor "Gocator" 因幡電機産業 産機カンパニー
  4. 4 AMR (Autonomous Mobile Robot) for manufacturing sites 'AspinaAMR' セキュリティデザイン
  5. 5 Autonomous Mobile Robot 'TriOrb BASE (Standard/Weight Carrying)' TriOrb

robot Product List

3421~3450 item / All 3751 items

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[Research Material] World Market for Milling Robots

World Market for Milling Robots: 4-axis, 5-axis, 6-axis, 7-axis, others, automotive, electronics, metals, pharmaceuticals, rubber, plastics, food, others

This research report (Global Milling Robots Market) investigates and analyzes the current state and future outlook of the global milling robot market over the next five years. It includes information on the overview of the global milling robot market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the milling robot market include 4-axis, 5-axis, 6-axis, 7-axis, and others, while the segments by application cover automotive, electronics, metals, pharmaceuticals, rubber, plastics, food, and others. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa to calculate the market size of milling robots. It also includes the market share of major companies in the milling robot sector, product and business overviews, and sales performance.

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[Research Material] Global Market for Electric/Electronic Robots

World Market for Electric/Electronic Robots: Articulated Robots, Cartesian Robots, Scara Robots, Others, Soldering/Welding, Material Handling ...

This research report (Global Electrical/Electronics Robots Market) investigates and analyzes the current status and outlook for the global electrical/electronics robots market over the next five years. It includes information on the overview of the global electrical/electronics robots market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the electrical/electronics robots market include articulated robots, Cartesian robots, SCARA robots, and others, while the segments by application cover soldering/welding, material handling, assembly/disassembly, painting/dispensing, cutting, and others. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of electrical/electronics robots. It also includes the market share of major companies in the electrical/electronics robots sector, product and business overviews, and sales performance.

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[Research Material] The Global Market for Rehabilitation Medical Support Robots

World Market for Rehabilitation Medical Support Robots: Upper Limb Robots, Lower Limb Robots, Others, Stroke, Orthopedics, Cognitive & Motor Skills, etc.

This research report (Global Rehabilitation Healthcare Assistive Robot M) investigates and analyzes the current status and outlook for the global market of rehabilitation healthcare assistive robots over the next five years. It includes information on the overview of the global rehabilitation healthcare assistive robot market, trends of major companies (sales, selling prices, market share), market size by segment, market size by major regions, and distribution channel analysis. The segments by type in the rehabilitation healthcare assistive robot market include upper limb robots, lower limb robots, and others, while the segments by application cover stroke, orthopedics, cognitive & motor skills, sports, and others. The regional segments are divided into North America, the United States, Europe, Asia-Pacific, Japan, China, India, South Korea, Southeast Asia, South America, the Middle East, and Africa, to calculate the market size of rehabilitation healthcare assistive robots. The report also includes the market share of major companies in the rehabilitation healthcare assistive robot sector, product and business overviews, and sales performance.

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Case: Elevator-linked PUDU Cleaning Robot CC1

CC1 can automatically operate the elevator for cleaning different floors in a hierarchical manner, allowing for seamless boarding and alighting. It significantly improves operational efficiency with just one unit.

■Various functions of sweeping, washing, vacuuming, and dry wiping are consolidated into one robot. ■Maximum operating time of 9 hours, cleaning an extensive area of 700 to 1000 square meters per hour. ■Suction power is more than five times that of a household vacuum cleaner! Side brushes clean all the way to the edges.

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The Era of Business Efficiency: StarLift150 - Immediate Execution with Simple Tasks

Immediate effectiveness with simple operation! A next-generation automated transport robot that solves challenges in logistics and manufacturing sites.

StarLift150 is a next-generation automated transport robot that realizes efficiency in logistics and manufacturing environments. Its greatest feature is its simplicity, allowing for immediate implementation on-site right after installation. Equipped with optimization, it demonstrates stable transport performance even in complex layouts. Intuitive operation: Easily set routes with a dedicated app Flexible adaptability: Smoothly responds to layout changes High transport capacity: Effortlessly carries loads of up to 150kg Safety-focused: Ensures safe transport with obstacle detection and automatic stop functions It can be utilized in a wide range of fields, including manufacturing, logistics, and medical settings. Contact us now and experience a dramatic improvement in work efficiency with "StarLift150"!

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【Sales Start】Enhancing Heavy Object Transportation Efficiency with Collaborative Robots × Balancers!

Reducing workload and evolving the workplace! A robotic system that paves the way for the future of heavy cargo transportation has arrived!

The innovative combination of "collaborative robots" and "balancer" achieves efficiency and space-saving in heavy material handling! This system aims to improve the working environment and enhance productivity by automating the handling of heavy workpieces. It is well-suited for manufacturing and logistics environments that want to improve work efficiency, especially in settings facing aging and labor shortages. 【Features】 ● Increased load capacity - The introduction of the balancer system makes it possible to transport heavy materials that were difficult with collaborative robots. - Capable of handling workpieces over 50kg, exceeding traditional limits. ● Space-saving design - No need for large robots, allowing effective use of the work area. - Easy installation and layout changes enable flexible operation. ● Flexible original design - Attachments designed to accommodate a variety of workpieces. - Safe handling without damaging the workpieces. ● Easy installation and mobility - Unit design with casters makes it easy to move to different work locations. ● Safe and efficient automation - Automates heavy material handling that traditionally required two people. - Significantly contributes to workforce reduction and alleviation of work burdens. *For more details, please refer to the PDF document or feel free to contact us.

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[Market Report] Global Waste Sorting Robot Market

Global Waste Sorting Robot Market: Innovations for efficient waste management are advancing as automation and artificial intelligence revolutionize the waste management process.

The global waste sorting robot market is experiencing significant growth as automation and artificial intelligence innovate the waste management process. Waste sorting robots are advanced machines equipped with AI-powered sensors and robotic arms, designed to efficiently identify, sort, and process various types of waste. These cutting-edge technologies are transforming traditional waste management practices and promoting sustainable waste sorting solutions. According to the latest market report, the global waste sorting robot market reached $290 million in 2021, with an impressive projected compound annual growth rate (CAGR) of 16.8% from 2022 to 2030. You can check the application method by clicking the [PDF Download] button or apply directly through the related links.

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[Market Report] Global Artificial Intelligence Robot Market

The global artificial intelligence robot market is rapidly expanding - innovative AI technologies are bringing transformation to industries and daily life.

The global artificial intelligence robot market is experiencing rapid growth, with innovative AI technologies bringing transformation to industries and daily life. Artificial intelligence (AI) robots refer to advanced robotics systems that mimic human intelligence and learning capabilities, autonomously performing various tasks. The evolution of AI robots has improved efficiency and productivity in industries such as manufacturing, logistics, healthcare, and services. These robots are suitable for precise tasks and activities in hazardous environments, reducing the burden on workers and contributing to the optimization of production processes. Moreover, AI robots are having a profound impact on individuals' lives. New technologies that enable coexistence with humans, such as self-driving cars, smart appliances, and robot companions, are becoming prevalent in everyday life. For application methods, please check the [PDF download] button or apply directly through the related links.

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[Market Report] Global Market for Surgical Robots

World Market for Surgical Robots: Precision, Advancements, and Potential of $172.5 Billion by 2031

The global market for surgical robots, a beacon of innovation in healthcare, is poised to reach new heights. This dynamic market, which boasted significant revenues of approximately $78.8 billion in 2022, is estimated to reach $172.5 billion by 2031, indicating a remarkable growth trajectory. This impressive rise is supported by a robust compound annual growth rate (CAGR) of 9.1% during the forecast period from 2023 to 2031. Surgical robots are revolutionizing the healthcare landscape by offering a wide range of benefits, from improving patient outcomes to reducing invasiveness and shortening recovery times. These advancements are redefining the surgical experience, making procedures safer and more efficient, and less burdensome for both patients and healthcare professionals. For application methods, please check the [PDF Download] button or apply directly through the related links.

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[Research Case] Investigation of Competitors' Sales Conditions in the Chinese Semiconductor Market

A case where we were commissioned by a client to conduct research in order to understand the situation of competitors in the target industry!

We would like to introduce a case study conducted by our company on the "Sales Status Survey of Competitors in the Chinese Semiconductor Market." China has become one of the largest semiconductor consumption markets in the world, and driven by large-scale investments from government-led funds, the demand for industrial robots is also rapidly increasing. We conducted a survey targeting companies in the Chinese semiconductor industry over approximately two months. [Survey Contents] ■ Major sales destinations and types of equipment ■ Annual sales volume over the past two years ■ Sales methods ■ Direct sales from the home country or sales through local sales companies/agents ■ Presence of local production; if local production exists, the name of the manufacturing company is also required ■ What other businesses are being developed besides the target products *For more details, please refer to the related links or feel free to contact us.

  • Company:MIR
  • Price:Other
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Solving the shortage of workers: Robots that work alongside people are 'Techman Robots'!

[Pick and Place Utilization Video] The standard-equipped camera reliably detects even subtle differences in shape! Collaborative robot 'Techman Robot'

The "Techman Robot" we handle is a collaborative robot equipped with a high-performance 2.5D camera as standard. We would like to introduce the shape detection function using the standard camera, which is optimal for performing the often encountered "pick and place" tasks in the manufacturing industry. The camera of the Techman Robot not only has a coordinate correction function using landmarks but also allows for shape detection that directly recognizes the shape of the target workpiece, correcting its position and orientation for picking. It can accurately detect subtle differences in the shapes of the target workpieces with a high-precision camera, recognizing the differences in each shape and picking them in the specified order of priority, enabling the arrangement of workpieces in the desired order regardless of their configuration. Therefore, it allows for high-precision picking with automatic correction by the robot itself in situations where positioning is unstable. For more details, please check out the demonstration video below! In our showroom, you can see different sizes of Techman Robots in action and experience programming them! If you are interested, please feel free to contact us before making any specific considerations!

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Case Study on Introducing Subsidies for Labor-Saving Investment | Parts Assembly with Collaborative Robots

【Amount of Subsidy for Labor-Saving Investment: 7 million yen】Solving chronic labor shortages! A robot replaces the work of three people.

Are you struggling with the introduction costs of a "collaborative robot assembly system"? "Many hands are being allocated to simple assembly tasks, and chronic labor shortages are becoming a bottleneck in production..." Introducing state-of-the-art equipment is key to enhancing a company's competitiveness, but the costs can pose a significant barrier. Our company offers "subsidy support" to make high capital investments possible. Below, we introduce a case where we supported the introduction of a "collaborative robot assembly system" using labor-saving investment subsidies. 【Case Introduction】 ■ Reason for Considering Introduction → Many hands are being allocated to simple assembly tasks, and chronic labor shortages are becoming a bottleneck in production. ■ Subsidy Support Achievements → Amount of labor-saving investment subsidy (general type) obtained: 7 million yen ■ Introduction Effects → A robot replaced the work of three people. Workers were able to be reassigned to higher value-added tasks. By utilizing subsidies, it is possible to overcome cost barriers and achieve both technological innovation and business expansion. For more details on subsidy support, please check the catalog download button. Feel free to contact us with any inquiries.

  • Management consultant/Small business consultant
  • Assembly Machine
  • Assembly robot
  • robot

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Case Study of Introducing Subsidies for Labor-Saving Investment | Automated Cleaning Robots

【Amount of labor-saving investment subsidy obtained: 5 million yen】Automation of cleaning operations! Reduced cleaning time by 20%, contributing to a decrease in overtime costs.

Are you struggling with the introduction costs of "automatic cleaning robots"? "The aging of cleaning staff and the serious labor shortage have led to a situation where overtime for cleaning staff has become the norm..." Introducing state-of-the-art equipment is key to enhancing a company's competitiveness, but the costs can pose a significant barrier. Our company offers "subsidy support" that enables substantial capital investment. Below, we present a case study where we supported the introduction of "automatic cleaning robots" using labor-saving investment subsidies. 【Case Study】 ■ Reason for Consideration → The aging of cleaning staff and the serious labor shortage have led to a situation where overtime for cleaning staff has become the norm. ■ Subsidy Support Achievements → Amount obtained from labor-saving investment subsidy (general type): 5 million yen ■ Implementation Effects → Cleaning time reduced by 20%. Successfully alleviated staff burden and reduced overtime costs. By utilizing subsidies, it is possible to overcome cost barriers and achieve both technological innovation and business expansion. For more details on subsidy support, please check the catalog download button. Feel free to contact us with any inquiries.

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AMR (Autonomous Mobile Robot) "Kachakapro" Product Specifications

It is equipped with furniture recognition sensors, docking units, LED rings, and more!

We would like to introduce the product specifications of our AMR (Autonomous Mobile Robot) "Kachakapro." It is equipped with a "Furniture Recognition Sensor" that detects the docking position of furniture, and a "Docking Unit" that powerfully transports items by connecting to furniture. Additionally, it features an "LED Ring" that indicates status with light and a "Front Camera" that collects information for image recognition. 【Specifications (Partial)】 ■ Main body dimensions: Width 240mm × Depth 387mm × Height 124mm ■ Main body weight: 12.2kg ■ Maximum speed ・ When not on a shelf: 0.8m/s ・ When on a shelf: 0.5m/s ■ Maximum motor torque: 2Nm *For more details, please refer to the PDF document or feel free to contact us.

  • Transport and handling robots
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The background of the growing attention on logistics robots in Japan.

The movement to introduce robots, starting with logistics robots, is becoming more active!

I will introduce the background of the growing attention to logistics robots in Japan. The expansion of the e-commerce market in Japan is progressing year by year, but a significant difference compared to other countries is the declining population. In particular, the noticeable decrease in the working-age population has led to an active movement to promote the introduction of robots, including logistics robots, in Japan. For more details, please refer to the published catalog. We encourage you to read it. [Contents] ■ BtoC e-commerce market size and e-commerce penetration rate in the retail sector ■ Future population projections for Japan *For more details, please refer to the PDF document or feel free to contact us.

  • Transport and handling robots
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Comparison table of the main features of AGV and AMR (Autonomous Mobile Robots)

An explanation of the driving methods, obstacle handling, prices, difficulty of implementation, and operational location challenges of AGVs (Automated Guided Vehicles) and AMRs (Autonomous Mobile Robots)!

When comparing AGVs and AMRs, generally, AMRs offer higher functional value, but their high cost is a disadvantage. AGVs are relatively low-priced, but their implementation is difficult due to the need for laying magnetic tape or 2D codes. AMRs, on the other hand, are relatively expensive, but they can operate independently without requiring modifications to the facility, making them easier to implement. For details on the main feature comparison table of AGVs and AMRs, please refer to the catalog. We encourage you to read it. [Overview (Excerpt)] ■AGV (Automated Guided Vehicle) - Driving method: Guided driving - Obstacle response: Generally stops ■AMR (Autonomous Mobile Robot) - Driving method: Autonomous driving - Obstacle response: Re-plans the route to avoid obstacles *For more details, please refer to the PDF document or feel free to contact us.

  • Transport and handling robots
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Common concerns of users considering AMR (Autonomous Mobile Robot)

Please consider autonomous transport robots as a measure to address labor shortages! We explain the concerns of production technology and DX personnel when considering the introduction of AMRs!

We would like to introduce some common concerns of users who are considering AMR. We recognize that many people are considering AMR as one of the measures to prepare for the impending labor shortage and to improve productivity. However, one of their concerns is whether there are any AMRs that are affordable and easy to implement. For more details, please refer to the published materials. We encourage you to read them. 【Common Concerns】 ■ Measures need to be taken to address the impending labor shortage and improve productivity. ■ AMRs that can replace transportation tasks could be a solution, but their high costs mean that it takes time to recover the investment. ■ Are there any AMRs that are affordable and easy to implement? *For more details, please refer to the PDF materials or feel free to contact us.

  • Transport and handling robots
  • robot

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【TI:PCA9517DR】

【Support for Electronic Component Procurement】We support the urgent procurement of discontinued (EOL) and hard-to-obtain electronic components and semiconductors! We have established a thorough inspection system.

Are you looking for this part number? ■Manufacturer: TI ■Part Number: PCA9517DR Owen Corporation quickly procures electronic components that have become difficult to obtain due to production discontinuation or delivery issues from a global network. We will definitely issue a quotation, so you can confirm the details before placing an order, giving you peace of mind. A veteran inspector who has monitored market distribution inventory for over 20 years conducts inspections, and only approved products are shipped. All deliveries include an inspection report. 【Our Inspection System】 ■X-ray Inspection Non-destructive testing to check internal structures and detect counterfeit or inferior products. ■Microscope Careful examination of lead bending and any discrepancies in printed fonts. ■Digital Caliper Dimension measurements in 0.01mm increments to detect cleverly crafted counterfeits. ■Curve Tracer Displays the voltage and current characteristic waveforms between terminals on the screen to detect defective products. ★Please visit our website from the link below. ★You can view our company brochure from the download button below. ▼For other part numbers you can inquire about, please refer to the lineup below.

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Introduction of Exhibiting Companies at Robot Festa Fukushima 2025

Tech Academy Koriyama, Department of Intelligent Information Design

Demonstration and hands-on experience with robots produced at our school.

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Introduction of Exhibiting Companies at Robot Festa Fukushima 2025

Fukushima Prefectural Techno Academy Hama

Exhibition of results in robot development, including technology, measurement and control, and simulation (including catalog).

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Introduction of Exhibiting Companies at Robot Festa Fukushima 2025

Nichiei Sangyo Co., Ltd.

Introduction and usage instructions for "Manual-less-kun".

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Introduction of Exhibiting Companies at Robot Festa Fukushima 2025

Nihon University College of Engineering

Introduction to robot-related research activities at Nihon University College of Engineering.

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