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robot Product List and Ranking from 890 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

3481~3510 item / All 3756 items

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Window-cleaning robot vacuum model number M1080W-3CS

Leave the window cleaning to this little one. It's a window cleaning robot that will finish the window cleaning for you while you are busy.

This is a window cleaning robot that automatically cleans for you when you're busy. When you turn it on, it adheres to the window glass with a vacuum motor. By pressing the full automatic cleaning start button, it moves while sticking to the window and recognizes the size of the window glass with sensors. It moves from left to right and top to bottom while wiping the window glass. It is also possible to manually control it from the remote.

  • Dust collector
  • robot

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BL Quick Change QC-150B

Improve production line efficiency and reduce costs! Achieve multifunctionality of robots through hand tool changes...

The BL Quick Change Model: QC-150B is a device for automatically exchanging hands or tools of robots and automated machines. It allows a single robot to perform multiple tasks, enabling multifunctionality and reducing setup time, thereby contributing to small-batch production of various types.

  • Other industrial robots
  • Vehicle body parts
  • Transport and handling robots
  • robot

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Curved surface appearance inspection robot for automobiles and automotive parts such as bodies and bumpers.

Inspection system compatible with large and curved workpieces, contributing to reduced takt time.

In the automotive industry, maintaining a consistent exterior quality of vehicle bodies is essential for improving product reliability. Particularly for body parts with complex curved surfaces, uniform inspection is crucial. Inadequate inspection can lead to missed detections or false positives. Our curved surface appearance inspection robot combines Yaskawa Electric's collaborative robot with Dexis cameras to achieve scanning inspections of large, curved workpieces. 【Application Scenarios】 - Inspection of complex curved areas of automotive bodies - Detection of appearance defects such as scratches and foreign object adhesion - Automated inspection on production lines 【Benefits of Implementation】 - Stabilization and improvement of inspection quality - Reduction of labor and effort in the inspection process - Increased productivity through shortened takt time

  • Inspection robot
  • robot

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Home appliance (pot, refrigerator, air conditioner, rice cooker) curved surface appearance inspection robot

For checking the enclosures of large and curved workpieces. Contributes to reducing takt time.

In the home appliance industry, the appearance quality of products is directly linked to user satisfaction, so inspections that do not overlook defects such as scratches, dirt, and molding defects on the casing are required. In particular, casings with curved surfaces or R-shaped surfaces are difficult to check with traditional inspection methods due to challenges in achieving uniform lighting and angles, leading to variations in inspection quality and the risk of oversight. Our curved appearance inspection robot addresses these challenges by providing high-precision inspections specifically designed for large and curved workpieces. 【Application Scenarios】 - Inspection of scratches, dirt, and foreign matter in the casings of home appliances (refrigerators, washing machines, air conditioners, etc.) - Detection of defects such as molding defects and wrinkles - Automated appearance inspection on production lines 【Benefits of Implementation】 - Stabilization and improvement of inspection quality - Reduction of labor and effort in the inspection process - Increased productivity through shortened takt time - Establishment of a quality assurance system strengthened by traceability

  • Inspection robot
  • robot

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Curved Surface Appearance Inspection Robot for Building Materials

Streamlining the exterior inspection of building materials. Compatible with large and curved workpieces.

In the building materials industry, the inspection of exterior finishes emphasizes the importance of maintaining product quality and ensuring aesthetic appeal. Particularly for large, curved products such as roofing and exterior wall materials, inspections must ensure uniform surface conditions and not overlook defects like scratches. In response to these challenges, our curved surface appearance inspection robot combines Yaskawa Electric's collaborative robot with Dexis cameras to achieve scanning inspections of large, curved workpieces. 【Usage Scenarios】 - Inspection of roofing materials - Surface inspection of exterior wall materials - Other appearance inspections of building materials with curved shapes 【Benefits of Implementation】 - Improved inspection quality - Reduction of labor and effort in the inspection process - Shortened takt time

  • Inspection robot
  • robot

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Plastic Molding Teachless 3D Random Picking Robot

A 3D robot that autonomously judges and controls the extraction of molded products.

In the plastic molding industry, there is a demand for automatic extraction of molded products to improve production efficiency and reduce labor costs. In particular, the stable gripping and transportation of molded products with complex shapes or randomly arranged items without teaching significantly impacts the flexibility and operational rate of production lines. The fully teaching-free 3D random picking robot addresses these challenges by achieving teaching-free extraction of molded products through advanced recognition, motion, and gripping control. 【Application Scenarios】 - Extraction of molded products from molding machines - Picking of randomly arranged molded products - Handling of molded products with complex shapes 【Benefits of Implementation】 - Labor reduction through automation of molded product extraction tasks - Improved operational rate of production lines - Quick response to additional product types and layout changes

  • Transport and handling robots
  • Picking robot system
  • Articulated Robot
  • robot

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3D Random Picking Robot for Logistics Warehouses

Efficiently streamline product picking with autonomous decision-making based on the scene.

In product picking operations at logistics warehouses, quick and accurate handling of a wide variety of products is required. Particularly, to efficiently pick products that do not have a consistent shape or arrangement, advanced recognition capabilities and flexible motion control are essential. Oversights and interruptions in work directly lead to a decrease in overall productivity. The "Fully Teachless" 3D Random Picking Robot addresses these challenges by autonomously determining and controlling recognition, motion, and gripping based on the scene, thereby achieving efficient and stable picking operations. 【Application Scenarios】 - Retrieving products from cardboard boxes - Picking products from shelves - Palletizing operations - Picking irregularly shaped items 【Benefits of Implementation】 - Labor reduction through automation of picking operations - Improved work accuracy and reduced errors - Increased work speed - Flexible response to the addition of product varieties

  • Transport and handling robots
  • Picking robot system
  • Articulated Robot
  • robot

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3D Random Picking Robot for Automotive Parts Manufacturing

Achieving automation of parts supply through autonomous decision-making based on the scene.

In the automotive parts manufacturing industry, there is a demand for the efficient and accurate supply of parts in various shapes and sizes. Particularly, to ensure stable operation of production lines and maintain quality, it is important to prevent parts from being missed and to avoid short stops, thereby achieving smooth supply. The completely teachless 3D random picking robot addresses these challenges by performing optimal picking through advanced recognition, motion, and gripping control, making autonomous decisions. This supports the automation and efficiency of the parts supply process. [Usage Scenarios] - Supply of pressed parts, die-cast parts, machine parts, etc. - Loading and unloading to and from processing machines - Transfer of parts between lines [Effects of Implementation] - Labor savings through automation of parts supply - Stable operation of production lines - Reduction of missed parts and short stops - Capability to handle diverse parts

  • Transport and handling robots
  • Picking robot system
  • Articulated Robot
  • robot

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[Automobile Manufacturing and Automotive Parts] Automation and Labor Reduction with AMR + Collaborative Robots

Shortening the takt time for parts transportation with high-precision positioning and omnidirectional movement.

In the automotive manufacturing industry, the stable supply of parts and efficient transportation on the production line are essential for improving productivity. In particular, transporting parts in complex layouts or limited spaces increases the burden on workers and carries the risk of production delays due to transportation errors. Our new AGBOT achieves high-precision positioning through camera measurement and omnidirectional movement with omni-wheels, addressing these challenges. 【Usage Scenarios】 ■ Supply of parts to the production line ■ Movement of parts between processes ■ Transportation of finished products 【Benefits of Implementation】 ■ Labor savings through automation of parts transportation ■ Reduction of takt time and improvement in productivity ■ Reduced burden on workers and enhanced safety ■ Adaptation to layout changes through flexible route adjustments We also offer proposals for AGV/AMR combined with fixed collaborative robots/industrial robots.

  • Other industrial robots
  • Transport and handling robots
  • Articulated Robot
  • robot

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Omnidirectional mobile AMR + collaborative robot for apparel manufacturing

Mobile robots that contribute to the automation and labor-saving of material transportation.

In the apparel manufacturing industry, efficient transportation of fabrics is essential for improving productivity. In particular, the movement of fabrics within the factory can lead to increased burdens on workers, risks of damage to fabrics during transport, and longer lead times. Our all-directional mobile AMR combined with collaborative robots addresses these challenges by enabling automatic transportation of fabrics. We also offer proposals for AGV/AMR combined with fixed collaborative robots/industrial robots. 【Usage Scenarios】 ■ Inbound and outbound operations of fabrics within the factory ■ Automatic supply and discharge of fabrics to cutting machines and sewing machines ■ Picking and transporting fabrics within the warehouse 【Benefits of Implementation】 ■ Labor reduction through automation of fabric transportation tasks ■ Improved transportation efficiency and shortened lead times ■ Reduced burden on workers and enhanced safety ■ Decreased risk of fabric damage

  • Other industrial robots
  • Transport and handling robots
  • Articulated Robot
  • robot

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Automation and labor-saving in factories with AMR + collaborative robots for home appliance manufacturing.

Achieving high-precision positioning with camera measurement. Contributing to reduced takt time with omni-wheels.

In the home appliance manufacturing industry, there is a demand for the efficiency of parts supply on assembly lines and the reduction of worker burden. In particular, responding to small-lot production of various types and ensuring accurate and rapid parts supply in complex assembly processes are crucial for improving productivity and maintaining quality. An inadequate supply system can lead to line stoppages and work delays, potentially impacting production plans. Our new AGBOT addresses these challenges by automating parts supply to assembly lines through the combination of DAIHEN's AMR and Yaskawa Electric's collaborative robots. We also offer proposals for AGV/AMR combined with fixed collaborative robots/industrial robots. 【Usage Scenarios】 ■ Parts supply to assembly lines ■ Insertion and removal of jigs ■ Automation of multiple processes 【Benefits of Implementation】 ■ Reduction of takt time on assembly lines ■ Cost savings on labor through automation ■ Improvement in work accuracy

  • Other industrial robots
  • Transport and handling robots
  • Articulated Robot
  • robot

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Omnidirectional Mobile AMR + Collaborative Robot for the Printing Industry

Mobile robots that contribute to the automation and labor-saving of paper supply.

In the printing industry, a stable supply of paper and improved work efficiency are required. In particular, the transportation of paper to the printing process places a significant burden on workers and can lead to delays in takt time. Additionally, to address labor shortages and improve productivity, the automation of these transportation tasks is crucial. Our omnidirectional mobile AMR combined with collaborative robots achieves safe and efficient paper supply through autonomous transportation and collaboration with humans. We also offer proposals for AGV/AMR combined with fixed collaborative robots/industrial robots. 【Usage Scenarios】 ■ Supplying paper to printing machines ■ Transporting finished products ■ Carrying materials 【Benefits of Implementation】 ■ Reduced burden on workers ■ Shortened transportation takt time ■ Increased productivity ■ Realization of labor savings

  • Other industrial robots
  • Transport and handling robots
  • Articulated Robot
  • robot

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