首页 > 市场调查报告书 > 工业机械

自动化

市场调查报告书

商品编码

1444721

自动物料搬运 (AMH) - 市场占有率分析、产业趋势与统计、成长预测（2024 - 2029 年）

Automated Material Handling (AMH) - 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 249 Pages | 商品交期: 2-3个工作天内

价格

※ 本网页内容可能与最新版本有所差异。详细情况请与我们联繫。

简介目录

自动化物料搬运市场规模预计到 2024 年为 703.5 亿美元，预计到 2029 年将达到 1,262 亿美元，在预测期内（2024-2029 年）CAGR为 12.40%。

技术进步不断进步，劳动力成本和安全问题不断上升，製造和仓储营运公司的效率和生产力不断提高，全球製造业显着復苏，工业自动化需求不断增长，製造单位和仓储设施对机器人的需求不断增长，新兴市场只是推动自动化物料搬运市场成长的几个关键因素。此外，在整个预测期内，全球自动化物料搬运市场将受益于供应链营运数位化的不断扩大。这种扩张将透过增加订单客製化和个人化来补充。

主要亮点

自动物料搬运 (AMH) 系统有助于有效地将物料转移到製造区域、仓库、零售店、机场、配送和物流中心的不同地点。这些系统有助于将材料从一个地方转移到同一车间、製造端对面的部门或两个独立建筑物之间的另一个地方。 AMH 系统使用製造执行系统 (MES) 提供的路线或路径。这些车辆使用光学字元辨识（OCR）、条码、RFID、超宽频室内追踪和近场通讯来定位材料的位置来进行材料辨识。
在过去的 70 年里，物料搬运经历了各种变革，改变了产业的面貌。物料搬运机器和机器人已经取代了个别工人。由于这种转变，许多行业都得到了成长，特别是汽车产业，成长了10倍。
加拿大开发的工业 4.0 创新和下一代製造能力正在改变各种产业和气候条件下产品和组件的设计、交付和维护方式。机器人、自动化和积层製造（3D 列印）等技术在加拿大各行业有着广泛的应用，例如电子商务、汽车、农业和製药。加拿大创新者正在为国内和竞争激烈的全球市场生产各种技术复杂、增值的产品，分享改进的实践，并为塑造先进自动化技术的未来的合作奠定基础。
儘管第一种形式的 AGV 已于 1953 年使用，但由于多种缓解因素（成本是阻碍成长的重要因素），AGV 基本上无法在所有生产/仓储公司中广泛采用。典型导引车的平均价格预计在 60,000-100,000 美元左右。同时，配备导航设备、感测器、安全设备和通讯组件的整合系统可能要昂贵得多。高初始价格和维护问题继续对所研究的市场产生不利影响。各大公司齐心协力控制总成本，同时确保创新和研发活动不受影响。
COVID-19 大流行使各行业采用自动化的情况变得更加复杂。它带来了社交距离和非接触式操作的独特挑战，改变了标准作业程序。组织被迫限制劳动力并应对不断增长的需求。自 2020 年以来，COVID-19 疫情已感染美国数名工人，导致第一线公司实施新的安全流程。虽然病毒的传播已经严重到需要关闭食品生产设施等，但透过采取新的卫生措施，许多其他企业已经能够继续运作。

自动物料搬运 (AMH) 市场趋势

工业 4.0 投资显着推动市场成长

该市场是由各国采用工业 4.0 和物联网技术所带来的发展所推动的。透过使用机器人技术，工业 4.0 正在彻底改变物料搬运的方式。在仓库和配送设施中，机器人技术变得越来越普遍。除了拣选和包装订单、装卸卡车，甚至清洁仓库地板外，他们还可以从事这些活动。机器人技术可以提高工作场所的准确性和生产力。机器人还可以透过减少必要的体力工作量来帮助公司节省金钱。
例如，由于仓库很大，员工必须步行相当长的距离才能找到 SKU 并将订单交付到包装和运输区域。每年，一个仓库平均浪费 6.9 週的时间在不必要的行走和其他活动上，相当于 2.65 亿小时的工作时间，成本达 43 亿美元。在选择过程的每个阶段，协作机器人也最大限度地减少了功能区域之间长时间行走的需要。物料搬运设备订单的增加将显着推动所研究的市场。
此外，机器人、自动化和积层製造（3D列印）等技术在加拿大电子商务、汽车、农业和製药等行业有着广泛的应用。加拿大创新者正在为国内和竞争激烈的全球市场生产各种技术复杂、增值的产品，分享改进的实践，并为塑造先进自动化技术的未来的合作奠定基础。
此外，德国也专注于 2030 年工业 4.0 愿景的三个策略行动领域：自主性、互通性和永续性。在这个 2030 年愿景中，工业 4.0 平台的利害关係人提出了塑造数位生态系统的整体方法。目标是根据社会市场经济的要求，创建未来资料经济的框架，强调开放的生态系统、多样性，并根据具体情况和德国工业基础的既定优势，支持所有市场利益相关者之间的竞争。自动化市场。
此外，政府对收购计划的大力支持使中国能够迈向工业4.0。例如，中国工业机器人製造商新鬆与中国科学院有联繫，而中国科学院又与政府有进一步的联繫。该国各公司采用工业控制系统是一个显着的趋势。先进的系统使工厂的生产变得容易。这也显示公司正逐渐从依赖体力劳动转向基于先进技术的系统，以实现设施的自动化。
影响所研究市场的一个重要趋势是对智慧製造实践的关注。 IBEF的资料显示，印度政府制定了雄心勃勃的目标，即到2025年将製造业产出占国内生产毛额(GDP)的比重从16%提高到25%。智慧先进製造和快速转型中心 (SAMARTH) Udyog Bharat 4.0 计画旨在提高印度製造业对工业 4.0 的认识，并使利益相关者能够应对与自动化物料搬运相关的挑战。

亚太地区预计将成为成长最快的市场

中国一直是亚太地区 AMH 市场成长的重要贡献者。製造业、汽车和电子商务等行业对 AMH 产品的需求不断增长，推动了市场的成长。中国人口众多，奉行产业政策。以购买力平价计算，中国在本十年内成为全球最大经济体、全球最大出口国和贸易国。该国目前正从製造业和建筑业主导型经济转向消费主导型经济。
根据中国国家统计局的数据，2022年中国消费品市场零售总额约为439,733亿元人民币。中国网路购物者数量从2006年的不到3,400万人迅速增长到2022年的8.45亿人以上，使中国的电子商务成为可能。商贸事业蓬勃发展。因此，随着电子商务的发展，对物料搬运设备的需求在预测的几年中可能会增加。
日本是一个以製造业为主的国家。其製造业对名目GDP的贡献接近20%，而其他已开发国家则接近10%。据国际货币基金组织称，由于资讯通信技术的普及，该国製造业的工业生产率显着高于服务业。汽车和电子产业是全国生产力最高的製造业。
政府基础设施投资和行业投资的增加以及「印度製造」计划预计将推动 AMH 系统的需求。印度政府的目标是到2022年将製造业占国内生产毛额(GDP)的比重从2018年的17%提高到25%。因此，製造商预计将采用工业4.0和其他数位技术来实现这一目标。
韩国迎来了第四次工业革命。在韩国，智慧工厂将是最重要的领域之一。 2022年，韩国计划兴建3万座智慧工厂。韩国政府制定了一项支持计划，帮助老企业成为碳中和智慧工厂。那些希望将韩国工厂改造为智慧工厂的企业，如果达到中二级水平，将获得韩国政府36万美元的财政援助。此外，达到中一级还将奖励 18 万美元。这些智慧工厂将是完全整合的自动化系统，将用于製造业。自动化解决方案也将遵循物料搬运和储存解决方案的自动化，这将推动所研究的市场。

自动物料搬运 (AMH) 产业概述

自动物料搬运 (AMH) 市场本质上竞争非常激烈。产品发布、高额研发费用、合作和收购等是市场主要参与者为维持激烈竞争而采取的主要成长策略。

2022 年 8 月，英特诺在中国成立 20 週年之际在苏州开设了一家新工厂。在中国物料搬运市场取得二十年的成功之后，英特诺现已为亚太地区和中国的未来机会做好了充分准备，位于中国苏州的新工厂全面投入运营，有效地将产能翻了一番。

2022年2月，凯傲集团启动欧洲研究计画IMOCO。该项目的目标是促进智慧卡车在仓库或工厂中自动导航。 IMOCO 代表“智慧运动控制”，致力于在快速移动的内部物流环境中安全使用移动机器人系统。

额外的好处：

Excel 格式的市场估算 (ME) 表
3 个月的分析师支持

依产品类型
- 硬体
- 软体
- 服务
依设备类型
- 移动机器人
  - 自动导引车（AGV）
  - 自主移动机器人（AMR）
- 自动储存和检索系统
  - 固定通道
  - 轮播
  - 垂直升降模组
- 自动输送机
  - 腰带
  - 滚筒
  - 托盘
  - 高架
- 码高机
  - 传统的
  - 机器人
- 分类系统
按最终用户
- 飞机场
- 汽车
- 食品和饮料
- 零售/仓储/配送中心/物流中心
- 一般製造
- 药品
- 邮政和包裹
- 其他最终用户
按地理
- 北美洲
  - 美国
  - 加拿大
- 欧洲
  - 英国
  - 德国
  - 法国
  - 义大利
  - 西班牙
  - 欧洲其他地区
- 亚太
  - 中国
  - 日本
  - 印度
  - 亚太其他地区
- 拉丁美洲
  - 巴西
  - 墨西哥
  - 拉丁美洲其他地区
- 中东和非洲
  - 阿拉伯聯合大公国
  - 沙乌地阿拉伯
  - 南非
  - 中东和非洲其他地区

第 7 章：竞争格局

公司简介
- Daifuku Co. Ltd
- Kardex Group
- KION Group AG
- JBT Corporation
- Jungheinrich AG
- TGW Logistics Group GmbH
- SSI Schaefer AG
- KNAPP AG
- Mecalux SA
- System Logistics SpA
- Viastore Systems GmbH
- BEUMER Group GmbH & Co. KG
- Interroll Holding AG
- WITRON Logistik
- Siemens AG
- KUKA AG
- Honeywell Intelligrated Inc. (Honeywell International Inc.)
- Murata Machinery Ltd
- Toyota Industries Corporation
- Visionnav Robotics
- Dearborn Mid-West Company

第 8 章：投资分析

第 9 章：市场的未来

简介目录

Product Code: 53959

The Automated Material Handling Market size is estimated at USD 70.35 billion in 2024, and is expected to reach USD 126.20 billion by 2029, growing at a CAGR of 12.40% during the forecast period (2024-2029).

Automated Material Handling (AMH) - Market

The rising technological advancements, rising labor costs and safety concerns, rising efficiency and productivity of manufacturing and warehouse operating companies, a significant recovery in global manufacturing, growing demand for automation in industries, rising demand for robots in manufacturing units and warehousing facilities, and rising emerging markets are just a few of the key factors driving the growth of the automated material handling market. Additionally, throughout the projection period, the global automated material handling market would benefit from the expanding digitization of supply chain operations. This expansion will be complemented by increasing order customization and personalization.

Key Highlights

Automated material handling (AMH) systems help efficiently transfer materials to different places in the manufacturing area, warehouse, retail shops, airports, distribution, and logistics centers. These systems help transfer materials from one place to another within the same bay, department opposite manufacturing ends, or between two separate buildings. An AMH system uses a route or path provided by the Manufacturing Execution System (MES). Material identification is made by these vehicles using optical character recognition (OCR), barcode, RFID, ultra-wideband indoor tracking, and near-field communication for locating the position of materials.
Over the last 70 years, material handling has undergone various transformations that have changed the industry's outlook. Material-handling machines and robots have replaced individual workers. Owing to this transformation, many industries have grown, especially the automotive industry, which has experienced a 10-fold growth.
Industry 4.0 innovations and next-generation manufacturing capabilities developed in Canada are changing the way products and components are designed, delivered, and maintained across various industries and climate conditions. Robotics, automation, and technologies like additive manufacturing (3D printing) have a wide range of applications in Canadian industries, such as e-commerce, automotive, agriculture, and pharmaceuticals. Canadian innovators are producing a comprehensive range of technologically complex, increased-value products for domestic and competitive global markets, sharing enhanced practices and laying the groundwork for collaborations that shape the future of advanced automation technologies.
Although the first form of AGV was used in 1953, AGVs have been mostly unable to gain widespread adoption across all the production/warehousing firms due to several mitigating factors (cost being a significant factor impeding growth). The average price of a typical guided vehicle is expected to be around USD 60,000-100,000. At the same time, an integrated system equipped with navigation aids, sensors, safety equipment, and communication components could be much more expensive. The high initial prices and maintenance issues continue to have an adverse impact on the market studied. Major companies have concerted efforts to keep the total costs in check while ensuring that innovation and R&D activities remain unaffected.
The COVID-19 pandemic complicated the situation of automation adoption in various sectors. It has changed the standard operating procedure by bringing in unique challenges of social distancing and contactless operation. Organizations were forced to limit their workforce and deal with the increasing demand. The COVID-19 outbreak has infected several workers in the United States since 2020, leading companies on the front lines to implement new safety processes. While the spread of the virus has been severe enough to warrant shutdowns, for instance, food production facilities, multiple other businesses have been able to continue operations with the addition of new health measures.

Automated Material Handling (AMH) Market Trends

Industry 4.0 Investments Significantly Drive the Market Growth

The market is driven by the developments occurring due to countries adopting Industry 4.0 and IOT technologies. Through the use of robotics, industry 4.0 is revolutionizing how material handling is done. In warehouses and distribution facilities, robotics is becoming more and more prevalent. In addition to picking and packaging orders, loading and unloading trucks, and even cleaning the warehouse floor, they can also be employed for these activities. Workplace accuracy and productivity can both be enhanced by robotics. Robots can also enable company save money by lowering the quantity of necessary manual work.
For instance, as warehouses are huge, associates must walk considerable distances to locate SKUs and deliver orders to the packing and shipping regions. Every year, an average warehouse wastes 6.9 weeks on unnecessary walking and other movements, equating to 265 million hours of work at the cost of USD 4.3 billion. During each stage of the selection process, collaborative robots also minimize the need for extended walks between functional areas. The rise in material handling equipment orders will significantly drive the studied market.
Moreover, robotics, automation, and technologies like additive manufacturing (3D printing) have a wide range of applications in Canadian industries such as e-commerce, automotive, agriculture, and pharmaceuticals. Canadian innovators are producing a comprehensive range of technologically complex, increased-value products for domestic and competitive global markets, sharing enhanced practices and laying the groundwork for collaborations that shape the future of advanced automation technologies.
Moreover, Germany is also focused on the 2030 vision for Industry 4.0 in three strategic fields of action: Autonomy, Interoperability, and Sustainability. In this 2030 vision, the stakeholders of the platform Industry 4.0 presents a holistic approach to shaping the digital ecosystem. The goal is to create a framework for a future data economy that is by the demands of a social market economy, emphasizing open ecosystems, diversity, and supporting competition between all market stakeholders based on the specific situation and established strengths of the German industry base for the automation market.
Furthermore, the government's strong support in the acquisition program has enabled China to move toward Industry 4.0. For instance, Siasun, a China-based industrial robot maker, has affiliations with the Chinese Academy of Sciences, which is further linked to the government. The country's adoption of industrial control systems by various companies is a notable trend. The advanced systems allow ease of production in factories. This also points to the gradual shift of companies from depending on manual labor to advanced technology-based systems that will enable the facility's automation.
A significant trend impacting the market studied is the focus on smart manufacturing practices. According to the data from IBEF, the Government of India set an ambitious target of increasing manufacturing output contribution to 25% of the Gross Domestic Product (GDP) by 2025 from 16%. The Smart Advanced Manufacturing and Rapid Transformation Hub (SAMARTH) Udyog Bharat 4.0 initiative aim to enhance awareness about Industry 4.0 within the Indian manufacturing industry and enable stakeholders to address challenges related to automation material handling.

Asia-Pacific is Expected to be the Fastest Growing Market

China has been a prominent contributor to the growth of the AMH market in the Asia-Pacific region. The increasing demand for AMH products across industries, such as manufacturing, automotive, and e-commerce, boosts the market's growth. China has a vast population and pursues an industrial policy. Measured on the PPP basis, the country became the global largest economy and the global largest exporter and trader during the current decade. The country is currently transitioning from a manufacturing and construction-led economy to a consumer-led economy.
According to China's National Bureau of Statistics, total retail sales in China's consumer products market were around CNY 43,973.3 billion in 2022. The number of Chinese online buyers has risen rapidly from under 34 million in 2006 to over 845 million in 2022, enabling China's e-commerce business to proliferate. Hence, with growing e-commerce, the demand for material-handling equipment will likely rise in the forecasted years.
Japan is predominantly a manufacturing nation. Its manufacturing industry contributes close to 20% to the nominal GDP, whereas it is close to 10% for other developed countries. According to the IMF, the country's manufacturing sector has achieved significant industrial productivity gains over the services sector, owing to the increased adoption of ICT. The automotive and electronics sectors are the most productive manufacturing sectors in the country.
An increase in infrastructure investment by the government and investments from industries coupled with the 'Make in India' initiative is expected to drive AMH systems' demand. The Government of India aims to increase the manufacturing sector's share of the gross domestic product (GDP) to 25% by 2022, from 17% in 2018. Thus, manufacturers are expected to incorporate Industry 4.0 and other digital technologies to achieve this target.
South Korea adopted the 4th Industrial Revolution. In Korea, smart factories will be one of the most important fields. By 2022, South Korea plans to construct 30,000 smart factories. The government of South Korea established a support program to help old companies become carbon-neutral smart factories. Those wishing to transform their factories in Korea into smart factories will receive USD 360,000 in financial assistance from the Korean government if they reach medium two levels. In addition, USD 180,000 will be awarded for reaching medium one levels. These Smart Factories will be fully integrated, automated systems that will be employed in manufacturing. The automated solutions will also follow automation for material handling and storage solutions, which will boost the studied market.

Automated Material Handling (AMH) Industry Overview

The automated material handling (AMH) market is highly competitive in nature. Product launches, high expenses on research and development, partnerships and acquisitions, etc., are the prime growth strategies adopted by the key players in the market to sustain the intense competition.

In August 2022, Interroll opened a new plant in Suzhou during its 20th anniversary year in China. After two decades of success in the Chinese material-handling market, Interroll has now fully prepared for future opportunities in the Asia-Pacific and China by putting a new plant in Suzhou, China, into full operation, effectively doubling production capacities.

In February 2022, KION Group launched the European research project IMOCO. The project could aim to facilitate intelligent trucks to navigate autonomously in a warehouse or factory. IMOCO, which stands for 'intelligent motion control,' is devoted to the safe usage of mobile robotic systems in fast-moving intralogistics environments.

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 Value Chain Analysis
4.3 Industry Attractiveness - Porter's Five Forces Analysis
- 4.3.1 Bargaining Power of Suppliers
- 4.3.2 Bargaining Power of Consumers
- 4.3.3 Threat of New Entrants
- 4.3.4 Intensity of Competitive Rivalry
- 4.3.5 Threat of Substitute Products
4.4 Impact of COVID-19 on the Market

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Incremental Technological Advancements aiding Market Growth
- 5.1.2 Industry 4.0 Investments driving the Demand for Automation and Material Handling
- 5.1.3 Rapid Growth of E-commerce Sector
5.2 Market Challenges
- 5.2.1 High Initial Equipment Cost
- 5.2.2 Unavailability for Skilled Workforce

6 MARKET SEGMENTATION

6.1 By Product Type
- 6.1.1 Hardware
- 6.1.2 Software
- 6.1.3 Services
6.2 By Equipment Type
- 6.2.1 Mobile Robots
  - 6.2.1.1 Automated Guided Vehicle (AGV)
  - 6.2.1.2 Autonomous Mobile Robot (AMR)
- 6.2.2 Automated Storage and Retrieval System
  - 6.2.2.1 Fixed Aisle
  - 6.2.2.2 Carousel
  - 6.2.2.3 Vertical Lift Module
- 6.2.3 Automated Conveyor
  - 6.2.3.1 Belt
  - 6.2.3.2 Roller
  - 6.2.3.3 Pallet
  - 6.2.3.4 Overhead
- 6.2.4 Palletizer
  - 6.2.4.1 Conventional
  - 6.2.4.2 Robotic
- 6.2.5 Sortation System
6.3 By End User
- 6.3.1 Airport
- 6.3.2 Automotive
- 6.3.3 Food And Beverages
- 6.3.4 Retail/Warehousing/Distribution Centers/Logistic Centers
- 6.3.5 General Manufacturing
- 6.3.6 Pharmaceuticals
- 6.3.7 Post and Parcel
- 6.3.8 Other End Users
6.4 By Geography
- 6.4.1 North America
  - 6.4.1.1 United States
  - 6.4.1.2 Canada
- 6.4.2 Europe
  - 6.4.2.1 United Kingdom
  - 6.4.2.2 Germany
  - 6.4.2.3 France
  - 6.4.2.4 Italy
  - 6.4.2.5 Spain
  - 6.4.2.6 Rest of Europe
- 6.4.3 Asia-Pacific
  - 6.4.3.1 China
  - 6.4.3.2 Japan
  - 6.4.3.3 India
  - 6.4.3.4 Rest of Asia-Pacific
- 6.4.4 Latin America
  - 6.4.4.1 Brazil
  - 6.4.4.2 Mexico
  - 6.4.4.3 Rest of Latin America
- 6.4.5 Middle-East and Africa
  - 6.4.5.1 United Arab Emirates
  - 6.4.5.2 Saudi Arabia
  - 6.4.5.3 South Africa
  - 6.4.5.4 Rest of Middle East and Africa

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 Daifuku Co. Ltd
- 7.1.2 Kardex Group
- 7.1.3 KION Group AG
- 7.1.4 JBT Corporation
- 7.1.5 Jungheinrich AG
- 7.1.6 TGW Logistics Group GmbH
- 7.1.7 SSI Schaefer AG
- 7.1.8 KNAPP AG
- 7.1.9 Mecalux SA
- 7.1.10 System Logistics SpA
- 7.1.11 Viastore Systems GmbH
- 7.1.12 BEUMER Group GmbH & Co. KG
- 7.1.13 Interroll Holding AG
- 7.1.14 WITRON Logistik
- 7.1.15 Siemens AG
- 7.1.16 KUKA AG
- 7.1.17 Honeywell Intelligrated Inc. (Honeywell International Inc.)
- 7.1.18 Murata Machinery Ltd
- 7.1.19 Toyota Industries Corporation
- 7.1.20 Visionnav Robotics
- 7.1.21 Dearborn Mid-West Company