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机器人末端执行器：市场占有率分析、产业趋势/统计、成长预测（2024-2029）

Robot End-Effector - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)

出版日期: 2024年02月15日 | 出版商:

Mordor Intelligence | 英文 120 Pages | 商品交期: 2-3个工作天内

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简介目录

机器人末端执行器市场规模预计到 2024 年为 51.2 亿美元，预计到 2029 年将达到 98.1 亿美元，在预测期内（2024-2029 年）增长 13.93%。复合年增长率为

快速成长的自动化市场正在增加全球各个最终用户产业对机器人系统实施的需求，从而增加了对机器人末端执行器的需求。

主要亮点

末端执行器，也称为臂端工具 (EOAT)，是连接到机器人手腕并允许机器人与其任务互动的周边设备。大多数 EOAT 是机械或电子机械的。透过夹具、加工工具和感测器执行拾取和放置的产品范围从两指夹具到那些包含用于先进机器人检查的复杂感测器系统的产品。
工业和协作机械臂不断进步，末端执行器的发展近年来也在加速。这在一定程度上是由电子商务订单处理等取放业务的灵活性需求所推动的。作为机器学习软体，当今的末端执行器变得更加聪明和强大。 EOAT 中越来越多地结合了安全功能，并增加了使用机器视觉适应环境的能力。例如，在某些应用中，输送机被自动导引车取代，用于运输含有混合产品的盒子。
随着机器人与人类的合作更加密切，它们需要能够回应并适应人类的行为。在未来几年中，研究人员预计将能够识别人类的基本行为，并调整机器人的行为以对其做出反应。在未来几年，这将演变成更先进的程序，适应复杂任务的需求。
此外，政府措施鼓励引入机器人，以增加对末端执行器的需求。例如，美国联邦政府启动了一项名为「国家机器人计画」（NRI）的计划，以加强美国国内机器人製造能力并鼓励该领域的研究活动。 2021 年 2 月，美国科学基金会 (NSF) 发布了一项新倡议 NRI-3.0。 NRI-3.0 是一个联邦政府机构，包括 NSF、美国农业部 (USDA)、美国国家航太总署 (NASA)、运输部(DOT)、美国国立卫生研究院 (NIH) 和美国国家职业安全研究所和健康(NIOSH)。得到多个机构的支持。
由于激烈的市场竞争以及提高产品品质和生产速度的需要，新兴市场越来越倾向于自动化。这导致了多项机器人创新，例如适应不同表面和自由度的末端执行器，以处理日常业务。
然而，在工业领域安装机器人末端执行器的成本很高，并且常常导致较高的安装成本。此外，考虑到重工业领域的工作性质，它们很容易受到损坏且更换成本高昂。这些是阻碍所研究市场成长的一些主要因素。
冠状病毒感染疾病(COVID-19) 的爆发和世界各地实施的封锁限制正在影响世界各地的资本投资和工业活动。冠状病毒感染疾病(COVID-19) 引起的全球景气衰退对 2020 年至 2021 年研究的市场产生了各种影响。由于封锁限制，许多最终用户行业（主要是製造业和汽车业）的公司已经关闭了生产基地。然而，随着情况恢復到新常态，市场预计将在预测期内获得牵引力。

机器人末端执行器市场趋势

扩大机器人的引进以推动市场成长

近年来，由于自动化、工业物联网、人工智慧和机器学习等技术的进步和商业化，机器人产业的机器人使用案例大幅扩展，需求大幅增长。技术进步也影响了机器人产业，为创新和低成本机器人的发展铺平了道路。
数位技术的日益普及将进一步推动工业、商业和家庭终端用户领域对机器人的投资。此外，「工业 4.0」和智慧城市等支持性政府法规和倡议正在为机器人和末端执行器市场的成长创造有利的市场前景。根据国际机器人联合会（IFR）的数据，到2024年，每年安装的工业机器人数量预计将达到518,000台，高于2015年的254,000台。这种趋势也可能影响对机器人末端执行器的需求。
工业机器人投资的增加，导致2021年工业机器人销量与前一年同期比较增长约27%，全球工业机器人出货达到48.68万台，较全球增长27%，这一点显而易见从事实来看亚洲/澳洲是主要的需求驱动力，其次是美洲，出出货成长 27% 至 49,400 台，欧洲的出货量成长 15% 至 78,000 台。
随着工业机器人的日益普及，机器人及其周围环境的安全逐渐成为工业界的焦点。将这些新趋势融入其产品开发策略中，布法罗大学开发了一种两指动态夹持器，可以帮助机器人更好地抓取并提高在人类周围工作时的安全性。机械手的设计可以吸收碰撞时的衝击能量。

亚太地区将经历最高成长

全部区域现代化和工业化的快速发展以及大多数生产行业转向流程方法自动化以减少劳动力正在推动亚太市场的成长。此外，协作机器人正在被引入电子、汽车和其他领域以提高生产力。
工业4.0是最新的工业革命，正在推动协作机器人等新技术的发展。支援人工智慧的机器人使企业能够使用机器人来提高效率、消除错误并简化许多流程。改善职场安全和提高生产能力正在鼓励各行业投资机器人系统。
在专业自动化领域进行大量投资和承诺的国家正在推动机器人在该地区的采用。由于其高度发展的机器人产业和自动化技术，日本被认为是在生产过程中实施机器人和自动化的领导者之一。例如，根据日本机器人协会（JARA）的数据，2022年4月至6月机器人产值较与前一年同期比较增加5.7%至2,217亿日圆，出货金额增加5.2%至2,198亿日圆。
亚太地区各国政府的支持性法规正在进一步促进机器人产业的成长。例如，2021年12月，中国工业和资讯化部公布了机器人五年规划。此计划目标到2025年，实现机器人产业营业利润年均成长20%以上。该五年计画设定了扩大机器人应用的愿景，以支持该国不断增长的机器人数量。它还旨在发展更稳定的供应链，使行业更加规范。
此外，在当前的市场情况下，製造商面临许多挑战，例如平衡生产效率和品质、人口老化导致的工业劳动力减少以及健康和安全问题。然而，新型冠状病毒 (COVID-19) 的爆发已推动该地区技术采用加速发展，预计将为所研究的市场创造重大成长机会。

机器人末端执行器产业概况

由于仓库和半导体工厂对工业机器人的需求大幅增长，机器人末端执行器市场的竞争变得越来越激烈，这使末端执行器製造商受益。在所研究的市场中营运的供应商采取的主要策略包括新产品开发、合作、合併和收购。在研究市场中营运的主要企业包括 ABB Ltd.、DESTACO Europe GmbH、Zimmer Group 等。

2022 年 9 月 - ASTM 国际机器人、自动化和自主系统 (F45) 委员会成立了一个新的抓取和操纵小组委员会。新小组委员会的主要重点是建立可抓取末端执行器、机器人组装系统和移动操纵器的性能标准，涵盖固定和移动系统的使用。
2022年8月－领先的太空机器人公司GITAI USA Inc.开发了在手臂两端配备「抓斗末端执行器」的尺蠖形机械臂「GITAI IN1」。这项独特的功能可让您连接到不同的工具/末端执行器，以针对不同的应用程式执行多项任务。此外，移动功能可让您向任何方向移动。

其他福利

Excel 格式的市场预测 (ME) 表
3 个月分析师支持

Key Highlights

End-effectors, otherwise mentioned as end-of-arm tooling (EOAT), are peripheral devices attached to a robot's wrist, allowing it to interact with its task. The majority of the EOATs are either mechanical or electromechanical. Serving the pick and drop via grippers, process tools, or sensors, they range from two-fingered grippers to incorporating complex sensor systems for advanced robotic inspection.
The advancement in industrial and collaborative robot arms has been growing, with the end-effector evolution becoming rapid in the past few years. This is partially driven by the demand for dexterous manipulation in pick-and-place operations such as e-commerce order fulfillment. The end effectors of current times are becoming more intelligent and potent as a machine learning software. Safety features are increasingly being combined within the EOAT and the ability to adapt to its environment using machine vision. For example, conveyors are being replaced with automated guided vehicles, transporting bins containing mixed products in specific applications.
As robots are working even more closely with humans, there is a need for them to be able to respond to the users and adapt their behaviors. Over the next few years, researchers are anticipated to recognize basic human behaviors and adapt these actions of robots to respond to them. Over the next few years, this would develop into much more advanced programs adapting to complex task needs.
Further, government initiatives across countries encourage robotics adoption to augment the demand for end-effectors. For instance, the U.S. Federal Government has commenced a program called the National Robotics Initiative (NRI) to bolster the capabilities of building domestic robots in the country and encourage research activities in the field. In February 2021, The National Science Foundation (NSF) issued a new initiative, NRI-3.0. NRI-3.0 is supported by multiple agencies of the federal government, including NSF, the U.S. Department of Agriculture (USDA), the National Aeronautics and Space Administration (NASA), the Department of Transportation (DOT), the National Institutes of Health (NIH), and the National Institute for Occupational Safety and Health (NIOSH).
Emerging markets are more slanted toward automation due to intense competition in the market and the need to improve product quality and the speed of production. This led to several robotic innovations, including end-effectors for various surfaces and different degrees of freedom, to handle routine tasks.
However, the expense of installing the robotic end-effectors in the industrial sector is significant, often incurring higher installation costs. Furthermore, they are susceptible to damage considering the nature of their work in heavy industrial sectors, making their replacement cost. These are some of the primary factors challenging the growth of the studied market.
The COVID-19 outbreak and the lockdown restriction imposed across the world have affected capital investments and industrial activities across the world. Following the global economic recession led by COVID-19, the market studied has witnessed mixed impacts across 2020 and 2021. Many enterprises operating in the end-user industries (majorly manufacturing and automotive) had shut down their production sites due to lockdown restrictions. However, with the condition returning to the new normal, the market is expected to gain traction during the forecast period.

Robot End Effector Market Trends

Growing Installation of Robots to Drive the Growth of the Market

In recent years, the robotics industry has witnessed a significant surge in demand as the advancement and commercialization of technologies, such as automation, IIoT, AI & ML, etc., has significantly expanded the use cases of robots. Technological advancement has also impacted the robotics industry, paving the way for developing innovative, low-cost robots.
The increasing penetration of digital technologies further drives investment in robots in the industrial, commercial, and domestic end-user verticals. Furthermore, supportive government regulations and initiatives such as "Industry 4.0" and Smart City are creating a favorable market scenario for the growth of the robotics and the end-effector market. According to the International Federation of Robotics (IFR), the annual installation of industrial robots is expected to reach 518 thousand units in 2024, from 254 thousand units in 2015. Such trends are also likely to impact the demand for robotic end-effectors similarly.
The increasing investment in industrial robots is evident from the fact that, in 2021, industrial robot sales increased by about 27% compared to the previous years, with the shipment of industrial robots reaching 486,800 units globally - an increase of 27% compared to the. Asia/Australia was the leading demand driver, followed by the Americas, wherein the shipment increased by 27% to 49,400 units, and Europe, which also registered a growth of 15% with 78,000 units installed.
With the increasing installation of industrial robots, the safety of robots and the surrounding environment is slowly coming to the forefront for industries. Keeping such emerging trends in product development strategies, University at Buffalo has developed a two-fingered dynamic gripper that could contribute to better grasping and improve safety for robots that work around people. The design of the robotic hand enables it to absorb energy from impacts during collisions.

Asia Pacific to Witness the Highest Growth

Rapid growth in modernization & industrialization across the region and most of the production industries shifting towards automation of their process methods to reduce the workforce drive the market's growth in the Asia-Pacific region. Additionally, collaborative robots are deployed in the electronics, automotive, and other sectors to increase productivity.
Industry 4.0, the newest industrial revolution, has boosted the development of new technologies, like collaborative robots; AI-enabled robots have enabled enterprises to use robots to increase efficiency, eliminate errors, and streamline many processes. Increased workplace safety and enhanced production capabilities have encouraged industries to invest in robotic systems.
The presence of countries with high investments and initiatives in the specialized automation area has aided in adopting robots in the region. Japan can be regarded as one of the leaders in the employment of robotics and automation in the production processes with the highly developed robotic sector and automation technologies. For instance, according to Japan Robot Association (JARA), during the period April - June 2022, the production of robots increased 5.7% year-on-year to 221.7 billion yen, while the shipment value increased by 5.2% year-on-year to 219.8 billion yen.
The supportive government regulation across various countries of the Asia Pacific region is further promoting the growth of the robotics industry. For instance, In December 2021, the Ministry of Industry and Information Technology, China, announced a five-year plan for robotics. The project aims to result in the average annual growth rate of operating income in the robotics industry exceeding 20% by 2025. The five-year plan set a vision to expand robotic applications to support the increasing number of robots in the country. It also aims to develop a more stable supply chain and better standardize the industry.
Furthermore, in the current market scenario, manufacturers are facing many challenges, such as balancing production efficiency and quality, declining industrial workforce due to the aging population, health, and safety concerns, among others. However, the COVID-19 outbreak has pushed the region into a hyperdrive of technological adoption which expected to create significant growth opportunities for the studied market.

Robot End Effector Industry Overview

The robotic end effector market is growing in competition due to strong growth in industrial robot demand in warehouses and semiconductor plants, which benefits end-effector manufacturers. Key strategies adopted by the vendors operating in the studied market include new product development, collaboration, mergers, and acquisitions. Some major players operating in the studied market include ABB Ltd., DESTACO Europe GmbH, Zimmer Group, etc.

September 2022 - ASTM International's robotics, automation, and autonomous systems (F45) committee has formed a new subcommittee on grasping and manipulation. The primary focus of the new subcommittee would be to develop standards for the performance of grasping type end-effectors, robotic assembly systems, and mobile manipulators, covering their use in fixed and mobile base systems.
August 2022 - GITAI USA Inc., a leading space robotics company, developed the GITAI IN1, an inchworm-type robotic arm equipped with 'grapple end-effectors ' on both ends of the arm. This unique feature enables it to connect to various tools/end effectors to perform multiple tasks for different applications, and the mobility feature allows it to move in any direction.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Threat of New Entrants
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Bargaining Power of Suppliers
- 4.2.4 Threat of Substitute Products
- 4.2.5 Intensity of Competitive Rivalry
4.3 Industry Value Chain Analysis
4.4 Assessment of Impact of COVID-19 on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Automation of Industrial Operations
5.2 Market Restraints
- 5.2.1 Difficulty in Integration with Existing Processes and Operations

6 MARKET SEGMENTATION

6.1 By Type
- 6.1.1 Grippers
- 6.1.2 Processing Tools
- 6.1.3 Suction Cups
- 6.1.4 Other Types
6.2 By End User Industry
- 6.2.1 Automotive
- 6.2.2 Food & Beverage
- 6.2.3 E-commerce
- 6.2.4 Pharmaceutical
- 6.2.5 Other End User Industries
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia Pacific
- 6.3.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 ABB Group
- 7.1.2 DESTACO Europe GmbH
- 7.1.3 Zimmer Group
- 7.1.4 Schunk GmbH
- 7.1.5 J. Schmalz GmbH
- 7.1.6 Robotiq Inc
- 7.1.7 KUKA Robotics Corporation
- 7.1.8 Weiss Robotics GmbH & Co. KG
- 7.1.9 Piab AB
- 7.1.10 Bastian Solutions, Inc.

8 INVESTMENT ANALYSIS

9 FUTURE OUTLOOK OF THE MARKET

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License/价格

机器人末端执行器：市场占有率分析、产业趋势/统计、成长预测（2024-2029）

Robot End-Effector - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2024 - 2029)