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市场调查报告书
商品编码
1954104

日本组装工业机器人市场规模、份额、趋势及预测(按机器人类型、有效载荷能力、应用、最终用途和地区划分,2026-2034年)

Japan Industrial Robotics for Assembly Lines Market Size, Share, Trends and Forecast by Robot Type, Payload Capacity, Application, End-Use, and Region, 2026-2034
出版日期: | 出版商: IMARC | 英文 139 Pages | 商品交期: 5-7个工作天内

价格
简介目录

2025年,日本组装工业机器人市场规模达10.84亿美元。展望未来,IMARC集团预测,到2034年,该市场规模将达到28.204亿美元,2026年至2034年的复合年增长率(CAGR)为11.21%。市场持续扩张的动力源自于对先进自动化解决方案需求的不断增长。协作机器人和自主机器人的广泛应用正在提升各行业的柔软性、生产效率和安全性。预计这一趋势将进一步巩固日本组装工业机器人在各製造业的市占率。

日本组装工业机器人市场的发展趋势:

製造业的自主机器人转型

自主机器人系统的引入正在推动日本组装工业机器人市场的变革。这些先进系统旨在处理各种复杂任务,并能应对不同的生产条件,从而提高製造流程的效率和精度。例如,RTJ在2024年7月展出的自主系统最新进展就印证了这个趋势。安川电机也发布了其「自主分散式製造」概念,该概念旨在解决汽车等行业中小批量、多品种的生产问题。该系统使机器人能够根据实际情况做出决策,使其成为自动化以往难以管理流程的关键要素。对于那些希望在不牺牲品质的前提下降低成本的企业而言,机器人自主适应各种製造需求的能力也是另一个关键因素。这种成长透过拓展机器人的工业应用领域,促进了日本组装工业机器人产业的发展。自主机器人有助于缓解劳动力短缺、提高产品品质并缩短生产週期,进而增强製造业的竞争力。

为各种应用开发创新协作机器人

协作机器人(cobot)正日益成为日本工业机器人市场(尤其是组装)的驱动力。这些机器人旨在与人类操作员协作,在提高生产效率的同时,兼顾柔软性和安全性。例如,川崎机器人于2024年9月在IMTS展会上发布了其新一代工业级协作机器人CL系列。 CL系列协作机器人具备先进的焊接和机器辅助等应用功能,且无需防护罩即可在恶劣环境下运作。这项创新使製造商能够提高速度和精度,从而提升整体生产效率。这些机器人不仅比传统工业机器人更安全、更柔软性,而且价格更实惠,更能适应各种製造流程。 CL系列的推出有望促进自动化技术在包括中小企业在内的众多行业的应用,而中小企业历来因成本问题难以采用自动化技术。在工业领域持续面临劳动力短缺的情况下,在组装上使用协作机器人将有助于日本工业机器人市场的成长,从而在保持高生产水平的同时减少人为错误和返工。

本报告解答的关键问题

  • 日本组装工业机器人市场目前发展状况如何?未来几年又将如何发展?
  • 工业组装机器人市场如何根据机器人类型进行划分?
  • 日本组装工业机器人市场以承重能力分類的情况如何?
  • 日本装配线工业机器人市场依应用领域组装的组成是怎样的?
  • 日本组装工业机器人市场依最终用途分類的情况如何?
  • 日本组装工业机器人市场按地区分類的情况如何?
  • 请介绍日本组装工业机器人市场价值链的各个环节。
  • 日本工业组装机器人市场的主要驱动因素和挑战是什么?
  • 日本工业组装机器人市场的结构是怎么样的?主要参与者有哪些?
  • 日本组装工业机器人市场竞争有多激烈?

目录

第一章:序言

第二章:调查范围与调查方法

  • 调查目标
  • 相关利益者
  • 数据来源
  • 市场估值
  • 调查方法

第三章执行摘要

第四章:日本组装工业机器人市场概览

  • 概述
  • 市场动态
  • 产业趋势
  • 竞争资讯

第五章:日本组装工业机器人市场:现状

  • 过去和当前的市场趋势(2020-2025)
  • 市场预测(2026-2034)

第六章:日本组装工业机器人市场-按机器人类型细分

  • 关节机器人
  • SCARA机器人
  • 笛卡儿机器人
  • 协作机器人(cobots)

第七章:日本组装工业机器人市场-依负载能力细分

  • 5公斤或以下
  • 5~10 kg
  • 10~20 kg
  • 超过20公斤

第八章:日本组装工业机器人市场:按应用领域细分

  • 焊接和焊焊
  • 物料输送
  • 组装与拆卸
  • 油漆和涂层
  • 检验和品质测试

第九章:日本组装工业机器人市场-依最终用途细分

  • 电子装置和半导体
  • 金属和机械
  • 塑胶和化学品
  • 食品/饮料
  • 其他的

第十章:日本组装工业机器人市场:依地区划分

  • 关东地区
  • 关西、近畿地区
  • 中部地区
  • 九州和冲绳地区
  • 东北部地区
  • 中国地区
  • 北海道地区
  • 四国地区

第十一章:日本组装工业机器人市场:竞争格局

  • 概述
  • 市场结构
  • 市场公司定位
  • 关键成功策略
  • 竞争对手仪錶板
  • 企业估值象限

第十二章主要企业概况

第十三章:日本组装工业机器人市场:产业分析

  • 驱动因素、限制因素和机会
  • 波特五力分析
  • 价值链分析

第十四章附录

简介目录
Product Code: SR112026A36289

The Japan industrial robotics for assembly lines market size reached USD 1,084.0 Million in 2025. Looking forward, IMARC Group expects the market to reach USD 2,820.4 Million by 2034, exhibiting a growth rate (CAGR) of 11.21% during 2026-2034. The market is expanding driven by increasing demand for advanced automation solutions. The rise in collaborative and autonomous robots enhances flexibility, productivity, and safety across sectors. This trend continues to strengthen Japan industrial robotics for assembly lines market share in various manufacturing industries.

JAPAN INDUSTRIAL ROBOTICS FOR ASSEMBLY LINES MARKET TRENDS:

Transformation to Autonomous Robotics in Manufacturing

The deployment of autonomous robotic systems is driving the transformation of assembly line industrial robotics markets in Japan. Such advanced systems are designed to handle a series of complex operations under varying conditions, enabling the manufacturing process to be more efficient and accurate. For instance, the trend was demonstrated in July 2024 by RTJ when it showcased further developments of autonomous systems. Yaskawa Electric also launched an idea of "autonomous distributed manufacturing" meant to address production systems within low-volume, high-mix situations such as those existing within the automobile industry. The system allows robots to make situational judgments, which is essential for the automation of processes that have been difficult to manage in the past. Another fundamental consideration for companies seeking to save money without compromising quality is the ability of robots to autonomously adapt to varying manufacturing requirements. This growth contributes to Japan's industrial robotics segment for assembly lines by diversifying the industrial application of robotics. Autonomous robots contribute to curing the labor shortage, enhancement of product quality, and quicker production cycles, thereby accounting for the competitiveness of the manufacturing industry.

Innovation in Collaborative Robotics for Diverse Applications

Collaborative robots (cobots) are increasingly becoming a driving force in Japan's industrial robotics for assembly lines market. These robots are designed to collaborate with human operators, providing flexibility and safety while enhancing productivity and efficiency. For instance, in September 2024, Kawasaki Robotics introduced its CL Series of cobots at IMTS, showcasing the next generation of industrial-grade collaborative robots. The CL Series cobots offer advanced capabilities in applications such as welding and machine tending and are designed to operate in challenging environments without the need for protective covers. This development allows manufacturers to enhance both speed and precision, improving overall production efficiency. These robots are not only safer and more flexible than traditional industrial robots but also more affordable and adaptable to various manufacturing processes. The introduction of the CL Series is expected to make automation accessible to a broader range of industries, particularly small and medium-sized enterprises, which may have previously found traditional robots cost-prohibitive. As industries continue to face labor shortages, the use of cobots in assembly lines will contribute to improving Japan industrial robotics market growth, enabling businesses to maintain high standards of production while reducing human error and rework.

JAPAN INDUSTRIAL ROBOTICS FOR ASSEMBLY LINES MARKET SEGMENTATION:

Robot Type Insights:

  • Articulated Robots
  • SCARA Robots
  • Cartesian Robots
  • Collaborative Robots (Cobots)

Payload Capacity Insights:

  • Up to 5 Kg
  • 5 to 10 Kg
  • 10 to 20 Kg
  • Above 20 Kg

Application Insights:

  • Welding and Soldering
  • Material Handling
  • Assembly and Disassembly
  • Painting and Dispensing
  • Inspection and Quality Testing

End-Use Insights:

  • Automotive
  • Electronics and Semiconductor
  • Metal and Machinery
  • Plastics and Chemicals
  • Food and Beverage
  • Others

Regional Insights:

  • Kanto Region
  • Kansai/Kinki Region
  • Central/ Chubu Region
  • Kyushu-Okinawa Region
  • Tohoku Region
  • Chugoku Region
  • Hokkaido Region
  • Shikoku Region
  • The report has also provided a comprehensive analysis of all the major regional markets, which include Kanto Region, Kansai/Kinki Region, Central/ Chubu Region, Kyushu-Okinawa Region, Tohoku Region, Chugoku Region, Hokkaido Region, and Shikoku Region.

COMPETITIVE LANDSCAPE:

The market research report has also provided a comprehensive analysis of the competitive landscape. Competitive analysis such as market structure, key player positioning, top winning strategies, competitive dashboard, and company evaluation quadrant has been covered in the report. Also, detailed profiles of all major companies have been provided.

  • KEY QUESTIONS ANSWERED IN THIS REPORT
  • How has the Japan industrial robotics for assembly lines market performed so far and how will it perform in the coming years?
  • What is the breakup of the Japan industrial robotics for assembly lines market on the basis of robot types?
  • What is the breakup of the Japan industrial robotics for assembly lines market on the basis of payload capacity?
  • What is the breakup of the Japan industrial robotics for assembly lines market on the basis of application?
  • What is the breakup of the Japan industrial robotics for assembly lines market on the basis of end-use?
  • What is the breakup of the Japan industrial robotics for assembly lines market on the basis of region?
  • What are the various stages in the value chain of the Japan industrial robotics for assembly lines market?
  • What are the key driving factors and challenges in the Japan industrial robotics for assembly lines market?
  • What is the structure of the Japan industrial robotics for assembly lines market and who are the key players?
  • What is the degree of competition in the Japan industrial robotics for assembly lines market?

Table of Contents

1 Preface

2 Scope and Methodology

  • 2.1 Objectives of the Study
  • 2.2 Stakeholders
  • 2.3 Data Sources
    • 2.3.1 Primary Sources
    • 2.3.2 Secondary Sources
  • 2.4 Market Estimation
    • 2.4.1 Bottom-Up Approach
    • 2.4.2 Top-Down Approach
  • 2.5 Forecasting Methodology

3 Executive Summary

4 Japan Industrial Robotics for Assembly Lines Market - Introduction

  • 4.1 Overview
  • 4.2 Market Dynamics
  • 4.3 Industry Trends
  • 4.4 Competitive Intelligence

5 Japan Industrial Robotics for Assembly Lines Market Landscape

  • 5.1 Historical and Current Market Trends (2020-2025)
  • 5.2 Market Forecast (2026-2034)

6 Japan Industrial Robotics for Assembly Lines Market - Breakup by Robot Type

  • 6.1 Articulated Robots
    • 6.1.1 Overview
    • 6.1.2 Historical and Current Market Trends (2020-2025)
    • 6.1.3 Market Forecast (2026-2034)
  • 6.2 SCARA Robots
    • 6.2.1 Overview
    • 6.2.2 Historical and Current Market Trends (2020-2025)
    • 6.2.3 Market Forecast (2026-2034)
  • 6.3 Cartesian Robots
    • 6.3.1 Overview
    • 6.3.2 Historical and Current Market Trends (2020-2025)
    • 6.3.3 Market Forecast (2026-2034)
  • 6.4 Collaborative Robots (Cobots)
    • 6.4.1 Overview
    • 6.4.2 Historical and Current Market Trends (2020-2025)
    • 6.4.3 Market Forecast (2026-2034)

7 Japan Industrial Robotics for Assembly Lines Market - Breakup by Payload Capacity

  • 7.1 Up to 5 Kg
    • 7.1.1 Overview
    • 7.1.2 Historical and Current Market Trends (2020-2025)
    • 7.1.3 Market Forecast (2026-2034)
  • 7.2 5 to 10 Kg
    • 7.2.1 Overview
    • 7.2.2 Historical and Current Market Trends (2020-2025)
    • 7.2.3 Market Forecast (2026-2034)
  • 7.3 10 to 20 Kg
    • 7.3.1 Overview
    • 7.3.2 Historical and Current Market Trends (2020-2025)
    • 7.3.3 Market Forecast (2026-2034)
  • 7.4 Above 20 Kg
    • 7.4.1 Overview
    • 7.4.2 Historical and Current Market Trends (2020-2025)
    • 7.4.3 Market Forecast (2026-2034)

8 Japan Industrial Robotics for Assembly Lines Market - Breakup by Application

  • 8.1 Welding and Soldering
    • 8.1.1 Overview
    • 8.1.2 Historical and Current Market Trends (2020-2025)
    • 8.1.3 Market Forecast (2026-2034)
  • 8.2 Material Handling
    • 8.2.1 Overview
    • 8.2.2 Historical and Current Market Trends (2020-2025)
    • 8.2.3 Market Forecast (2026-2034)
  • 8.3 Assembly and Disassembly
    • 8.3.1 Overview
    • 8.3.2 Historical and Current Market Trends (2020-2025)
    • 8.3.3 Market Forecast (2026-2034)
  • 8.4 Painting and Dispensing
    • 8.4.1 Overview
    • 8.4.2 Historical and Current Market Trends (2020-2025)
    • 8.4.3 Market Forecast (2026-2034)
  • 8.5 Inspection and Quality Testing
    • 8.5.1 Overview
    • 8.5.2 Historical and Current Market Trends (2020-2025)
    • 8.5.3 Market Forecast (2026-2034)

9 Japan Industrial Robotics for Assembly Lines Market - Breakup by End-Use

  • 9.1 Automotive
    • 9.1.1 Overview
    • 9.1.2 Historical and Current Market Trends (2020-2025)
    • 9.1.3 Market Forecast (2026-2034)
  • 9.2 Electronics and Semiconductor
    • 9.2.1 Overview
    • 9.2.2 Historical and Current Market Trends (2020-2025)
    • 9.2.3 Market Forecast (2026-2034)
  • 9.3 Metal and Machinery
    • 9.3.1 Overview
    • 9.3.2 Historical and Current Market Trends (2020-2025)
    • 9.3.3 Market Forecast (2026-2034)
  • 9.4 Plastics and Chemicals
    • 9.4.1 Overview
    • 9.4.2 Historical and Current Market Trends (2020-2025)
    • 9.4.3 Market Forecast (2026-2034)
  • 9.5 Food and Beverage
    • 9.5.1 Overview
    • 9.5.2 Historical and Current Market Trends (2020-2025)
    • 9.5.3 Market Forecast (2026-2034)
  • 9.6 Others
    • 9.6.1 Historical and Current Market Trends (2020-2025)
    • 9.6.2 Market Forecast (2026-2034)

10 Japan Industrial Robotics for Assembly Lines Market - Breakup by Region

  • 10.1 Kanto Region
    • 10.1.1 Overview
    • 10.1.2 Historical and Current Market Trends (2020-2025)
    • 10.1.3 Market Breakup by Robot Type
    • 10.1.4 Market Breakup by Payload Capacity
    • 10.1.5 Market Breakup by Application
    • 10.1.6 Market Breakup by End-Use Industry
    • 10.1.7 Key Players
    • 10.1.8 Market Forecast (2026-2034)
  • 10.2 Kansai/Kinki Region
    • 10.2.1 Overview
    • 10.2.2 Historical and Current Market Trends (2020-2025)
    • 10.2.3 Market Breakup by Robot Type
    • 10.2.4 Market Breakup by Payload Capacity
    • 10.2.5 Market Breakup by Application
    • 10.2.6 Market Breakup by End-Use Industry
    • 10.2.7 Key Players
    • 10.2.8 Market Forecast (2026-2034)
  • 10.3 Central/ Chubu Region
    • 10.3.1 Overview
    • 10.3.2 Historical and Current Market Trends (2020-2025)
    • 10.3.3 Market Breakup by Robot Type
    • 10.3.4 Market Breakup by Payload Capacity
    • 10.3.5 Market Breakup by Application
    • 10.3.6 Market Breakup by End-Use Industry
    • 10.3.7 Key Players
    • 10.3.8 Market Forecast (2026-2034)
  • 10.4 Kyushu-Okinawa Region
    • 10.4.1 Overview
    • 10.4.2 Historical and Current Market Trends (2020-2025)
    • 10.4.3 Market Breakup by Robot Type
    • 10.4.4 Market Breakup by Payload Capacity
    • 10.4.5 Market Breakup by Application
    • 10.4.6 Market Breakup by End-Use Industry
    • 10.4.7 Key Players
    • 10.4.8 Market Forecast (2026-2034)
  • 10.5 Tohoku Region
    • 10.5.1 Overview
    • 10.5.2 Historical and Current Market Trends (2020-2025)
    • 10.5.3 Market Breakup by Robot Type
    • 10.5.4 Market Breakup by Payload Capacity
    • 10.5.5 Market Breakup by Application
    • 10.5.6 Market Breakup by End-Use Industry
    • 10.5.7 Key Players
    • 10.5.8 Market Forecast (2026-2034)
  • 10.6 Chugoku Region
    • 10.6.1 Overview
    • 10.6.2 Historical and Current Market Trends (2020-2025)
    • 10.6.3 Market Breakup by Robot Type
    • 10.6.4 Market Breakup by Payload Capacity
    • 10.6.5 Market Breakup by Application
    • 10.6.6 Market Breakup by End-Use Industry
    • 10.6.7 Key Players
    • 10.6.8 Market Forecast (2026-2034)
  • 10.7 Hokkaido Region
    • 10.7.1 Overview
    • 10.7.2 Historical and Current Market Trends (2020-2025)
    • 10.7.3 Market Breakup by Robot Type
    • 10.7.4 Market Breakup by Payload Capacity
    • 10.7.5 Market Breakup by Application
    • 10.7.6 Market Breakup by End-Use Industry
    • 10.7.7 Key Players
    • 10.7.8 Market Forecast (2026-2034)
  • 10.8 Shikoku Region
    • 10.8.1 Overview
    • 10.8.2 Historical and Current Market Trends (2020-2025)
    • 10.8.3 Market Breakup by Robot Type
    • 10.8.4 Market Breakup by Payload Capacity
    • 10.8.5 Market Breakup by Application
    • 10.8.6 Market Breakup by End-Use Industry
    • 10.8.7 Key Players
    • 10.8.8 Market Forecast (2026-2034)

11 Japan Industrial Robotics for Assembly Lines Market - Competitive Landscape

  • 11.1 Overview
  • 11.2 Market Structure
  • 11.3 Market Player Positioning
  • 11.4 Top Winning Strategies
  • 11.5 Competitive Dashboard
  • 11.6 Company Evaluation Quadrant

12 Profiles of Key Players

  • 12.1 Company A
    • 12.1.1 Business Overview
    • 12.1.2 Products Offered
    • 12.1.3 Business Strategies
    • 12.1.4 SWOT Analysis
    • 12.1.5 Major News and Events
  • 12.2 Company B
    • 12.2.1 Business Overview
    • 12.2.2 Products Offered
    • 12.2.3 Business Strategies
    • 12.2.4 SWOT Analysis
    • 12.2.5 Major News and Events
  • 12.3 Company C
    • 12.3.1 Business Overview
    • 12.3.2 Products Offered
    • 12.3.3 Business Strategies
    • 12.3.4 SWOT Analysis
    • 12.3.5 Major News and Events
  • 12.4 Company D
    • 12.4.1 Business Overview
    • 12.4.2 Products Offered
    • 12.4.3 Business Strategies
    • 12.4.4 SWOT Analysis
    • 12.4.5 Major News and Events
  • 12.5 Company E
    • 12.5.1 Business Overview
    • 12.5.2 Products Offered
    • 12.5.3 Business Strategies
    • 12.5.4 SWOT Analysis
    • 12.5.5 Major News and Events

13 Japan Industrial Robotics for Assembly Lines Market - Industry Analysis

  • 13.1 Drivers, Restraints, and Opportunities
    • 13.1.1 Overview
    • 13.1.2 Drivers
    • 13.1.3 Restraints
    • 13.1.4 Opportunities
  • 13.2 Porters Five Forces Analysis
    • 13.2.1 Overview
    • 13.2.2 Bargaining Power of Buyers
    • 13.2.3 Bargaining Power of Suppliers
    • 13.2.4 Degree of Competition
    • 13.2.5 Threat of New Entrants
    • 13.2.6 Threat of Substitutes
  • 13.3 Value Chain Analysis

14 Appendix