robot Product List and Ranking from 42 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Jul 23, 2025~Aug 19, 2025
This ranking is based on the number of page views on our site.

robot Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jul 23, 2025~Aug 19, 2025
This ranking is based on the number of page views on our site.

  1. null/null
  2. アファーム・ビジネスパートナーズ Tokyo//Information and Communications
  3. 富士工業 Tokyo//Trading company/Wholesale 東京本社
  4. 4 ソフトバンクロボティクス Tokyo//others 全国7支店
  5. 5 Haloworld株式会社/カンテック株式会社 Tokyo//others
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robot Product ranking

Last Updated: Aggregation Period:Jul 23, 2025~Aug 19, 2025
This ranking is based on the number of page views on our site.

  1. Palletizer, collaborative robot
  2. Cat-shaped serving robot 'BellaBot' アファーム・ビジネスパートナーズ
  3. Serving robot "DINERBOT T8" can serve food stably and efficiently! Haloworld株式会社/カンテック株式会社
  4. Cat-shaped serving robot 'BellaBot' 富士工業 東京本社
  5. 4 Care robot "It's transfer." あかね福祉

robot Product List

946~960 item / All 1101 items

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[Document] Vision System Manual <JAKA Lens 2D>

[Document] Vision System Manual <JAKA Lens 2D>

Instructions for use, safety precautions for camera usage, installation, maintenance, and more are included!

This document is the manual for the vision system "JAKA Lens 2D." It includes information on setting up the environment, installing the camera, configuring camera parameters, as well as the main screen, project management, camera management, and vision calibration. In this software, the algorithm part and the UI part are designed separately. The algorithm part runs independently on a Linux system and can be integrated into the control panel of the JAKA robot. 【Contents (partial)】 ■ Manual usage instructions ■ Product list ■ Chapter 1: Introduction ■ Chapter 2: Installation and setup of hardware and software ■ Chapter 3: Main screen *For more details, please download the PDF or feel free to contact us.

  • Picking robots (shelf transport robots, arm picking robots)

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JAKA Corporation Company Profile

JAKA Corporation Company Profile

Helping companies around the world enter the era of collaborative robots that are soft and smart!

JAKA Corporation is a technology company located in Shanghai, the international technology innovation center, focusing on the development of collaborative robots and smart factories. It possesses strong development and design capabilities, keen insights into customer needs, an excellent supply chain, and smart production manufacturing capabilities. The company has acquired a large number of innovative technologies in areas such as integrated control drives, joint integration, direct teaching programming, and wireless connectivity. 【Products】 ■JAKA Zu ■JAKA Pro ■JAKA C ■JAKA MiniCobo *For more details, please download the PDF or feel free to contact us.

  • Picking robots (shelf transport robots, arm picking robots)

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[Data] JAKA-made Collaborative Robot Zu Specification Data

[Data] JAKA-made Collaborative Robot Zu Specification Data

The dimensional drawings of the external shape, range of motion, and installation dimensions of the base and tip flange are also included!

This document summarizes the specification data for the JAKA collaborative robot "Zu series." It includes product characteristics, operating ranges, and dimensional diagrams for "JAKA Zu 3," "JAKA Zu 5," "JAKA Zu 7," "JAKA Zu 12," "JAKA Zu 16," and "JAKA Zu 18." You can check various items such as payload capacity, body weight, repeat positioning accuracy, and degrees of freedom for each product. Please use this information for selecting products. 【Featured Products】 ■JAKA Zu 3 ■JAKA Zu 5 ■JAKA Zu 7 ■JAKA Zu 12 ■JAKA Zu 16 ■JAKA Zu 18 *For more details, please download the PDF or feel free to contact us.

  • Picking robots (shelf transport robots, arm picking robots)

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[Case Study of Kachakapro] Major Electronic Components Manufacturer

[Case Study of Kachakapro] Major Electronic Components Manufacturer

The transport robot that won the "Minister of Internal Affairs and Communications Award" at the 11th Robot Awards | Operating area of over approximately 3,000 square meters! Transports parts from the parts store to the assembly line.

We would like to introduce a case study of implementing our "Kachakapro" at a major electronic components manufacturer. The challenge was, "We want to automate processes with robots, but we want to do it with a small start and without incurring too much cost." By automating the transportation of parts from the parts store to the implementation line with Kachakapro, we achieved a reduction of 44 hours in the monthly travel time of workers, which was previously necessary. 【Case Overview】 ■Challenge - We want to automate processes with robots, but we want to do it with a small start and without incurring too much cost. ■Implementation Effect - Reduction of 44 hours in the monthly travel time of workers. *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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[Case Study of Kachakapro] Major Automobile Parts Manufacturer

[Case Study of Kachakapro] Major Automobile Parts Manufacturer

Transportation of finished products to the inspection site! Approximately 20 hours of travel time reduced.

We would like to introduce a case study of the "Kachakapro" that we handle, implemented at a major automotive parts manufacturer. Before implementation, there were challenges such as "other companies' AMRs are too expensive, resulting in a long return on investment period" and "we tried other companies' AMRs, but they were too large and obstructed pedestrian traffic." As a result of the implementation, the monthly travel time required for operators was reduced by approximately 20 hours. [Case Overview] ■ Challenges - Other companies' AMRs are too expensive, resulting in a long return on investment period - We tried other companies' AMRs, but they were too large and obstructed pedestrian traffic ■ Implementation Effects - Reduction of approximately 20 hours in monthly travel time for operators *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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Basic settings and operation methods for Kachakapro.

Basic settings and operation methods for Kachakapro.

Scan the space with the Kachaka laser sensor to create a map! Three operation methods are available.

We will introduce the basic setup and operation methods for "Kachakapro," which we handle. The initial setup involves using a smartphone app to scan the space with Kachaka's laser sensor for "map creation" and registering destination points on the map for "destination point registration." Additionally, there are three operation methods: "operation via smartphone or tablet," "operation via Kachaka button," and "operation from external systems using Kachaka API." 【Features】 ■ Initial setup via smartphone app ■ Registration of over 1,000 destination points possible ■ Three operation methods *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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Kachakapro Product Specifications

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 "Kachakapro" that we handle. It is equipped with features such as a "furniture recognition sensor" that detects the docking position of furniture and a "docking unit" that powerfully transports items in conjunction with the furniture. Additionally, it includes an "LED ring" that indicates status with light and a "front camera" that gathers information for image recognition. 【Specifications (partial)】 ■ Main unit dimensions: Width 240mm × Depth 387mm × Height 124mm ■ Main unit weight: 12.2kg ■ Maximum speed ・When not on shelf: 0.8m/s ・When on shelf: 0.5m/s ■ Maximum motor torque: 2Nm *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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World Market Size and Forecast for Logistics Robots

World Market Size and Forecast for Logistics Robots

Explanation using graphs! Global trends such as labor shortages and rising personnel costs are the background.

We would like to introduce the global market size and forecast for logistics robots. Against the backdrop of global trends such as labor shortages, rising labor costs, and the expansion of the e-commerce market, the global market for logistics robots is expected to grow rapidly at an average annual growth rate of approximately 53%, reaching a scale of 7.5 billion dollars by 2023. For more details, please refer to the catalog. We encourage you to read it. *For more information, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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The background of the growing attention on logistics robots in Japan.

The background of the growing attention on logistics robots in Japan.

The movement to introduce robots, including logistics robots, is gaining momentum!

I will introduce the background of the growing attention towards 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 catalog. We encourage you to take a look. [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.

  • Automatic transport robot

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Comparison table of the main features of AGVs and AMRs.

Comparison table of the main features of AGVs and AMRs.

Explanation of driving methods, obstacle handling, price, difficulty of implementation, and difficulty of operation location!

When comparing AGVs and AMRs, generally, AMRs offer higher functional value, but their high cost is a disadvantage. AGVs are relatively low-priced but require the installation of magnetic tapes or two-dimensional codes, making their introduction difficult. AMRs, on the other hand, are relatively expensive, operate independently, and do not require modifications to the facility, making them easier to implement. For detailed comparisons of the main features of AGVs and AMRs, please refer to the catalog. We encourage you to read it. [Overview (Excerpt)] ■AGV (Automated Guided Vehicle) - Operating Method: Guided operation - Obstacle Response: Basically stops ■AMR (Autonomous Mobile Robot) - Operating Method: Autonomous operation - Obstacle Response: Re-plans the route to avoid obstacles *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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Common concerns of users considering AMR.

Common concerns of users considering AMR.

As an example, we are explaining the concerns of those in charge of production technology and those in charge of DX!

We would like to introduce some common concerns of users considering AMR (Autonomous Mobile Robots). 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 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 must 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.

  • Automatic transport robot

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[Presentation of Materials] Alleviating Automation Anxiety! Autonomous Transport Robot "Kachakapro"

[Presentation of Materials] Alleviating Automation Anxiety! Autonomous Transport Robot "Kachakapro"

We will outline the steps to start factory automation. We also propose automation with the low-cost, small autonomous transport robot "Kachakapro" to minimize risks.

Currently, many companies are facing challenges such as labor shortages and the need to improve productivity, often lacking the know-how and insights for automation, which can lead to anxiety when introducing automation for the first time. To address issues like not knowing where to start or being unable to identify processes that can be automated, it is important to begin with the automation of simple tasks. By advancing labor reduction in small steps, companies can experience the benefits of automation while minimizing risks. Our company offers the perfect autonomous transport robot for first-time automation, the "Kachakapro." Please feel free to consult us when you need assistance. [For these kinds of challenges] ■ Not knowing where to start ■ Unable to identify processes that can be automated ■ Difficulty in making large-scale investments *For more details, please refer to the PDF materials or feel free to contact us.

  • Automatic transport robot

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Introduction to Factory Automation: Achieving Labor Reduction with Small Steps

Introduction to Factory Automation: Achieving Labor Reduction with Small Steps

The movement to promote the introduction of robots is becoming more active! We will also introduce the autonomous transport robot developed by our company.

This document introduces factory automation. It provides detailed information on the global market size and forecasts for logistics robots, the background behind the growing attention to logistics robots in Japan, the benefits of automating simple tasks, and the steps to advance automation. Additionally, it introduces autonomous transport robots that are perfect for first-time automation, making it a useful resource when considering implementation. We encourage you to read it. 【Contents (partial)】 ■ Global market size and forecasts for logistics robots ■ Background for the growing attention to logistics robots in Japan ■ Concerns about factory automation ■ Benefits of automating simple tasks ■ Steps to advance automation *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot

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AGVs and AMRs: A Detailed Explanation of the Differences Between Automation and Autonomy, as Well as Their Applications.

AGVs and AMRs: A Detailed Explanation of the Differences Between Automation and Autonomy, as Well as Their Applications.

Flexibility through software! A product category with the potential to change the future.

This document provides a detailed explanation of the differences between AGVs and AMRs. Recently, the keywords "AGV" and "AMR" have been heard from time to time. Many may know that they refer to "robots that transport something." We will introduce the features and applications of AMRs, as well as use cases for our developed "Kachaka," so please take a look. [Contents] ■ What is AGV? ■ What is AMR? ■ Features of AMR: "Flexibility through Software" ■ What are the unique applications of AMR? ■ Use cases of Kachaka *For more details, please refer to the PDF document or feel free to contact us.

  • Automatic transport robot
  • Automated guided vehicles (AGV, RGV)

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Underwater Sand Discharge Robot 'S-1 Type'

Underwater Sand Discharge Robot 'S-1 Type'

The maximum climbing angle is 30 degrees and the maximum water depth is 10 meters! The maximum sand discharge rate is 14 m³/h.

We would like to introduce the underwater sediment removal robot 'S-1 Type' that we handle. The driving and working power is 5.5 kW, with a traveling speed of 3 to 12 m/min. The ground pressure is 6.9 kPa, and the flow velocity resistance is 2 m/s. The maximum sediment removal capacity is 14 m³/h, with a mass of 1,470 kg on land and 840 kg underwater. Please feel free to contact us if you have any inquiries. 【Specifications (partial)】 ■ Maximum sediment removal capacity (m³/h): 14 ■ Pump ・ Diameter (mm): 80 ・ Power (kW): 11 ■ Driving and working power (kW): 5.5 ■ Traveling speed (m/min): 3 to 12 ■ Ground pressure (kPa): 6.9 *For more details, please refer to the PDF document or feel free to contact us.

  • Drainage and water removal

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