市场调查报告书
商品编码
1576103
包装机器人市场:各机器人类型,夹具,各用途,各终端用户业界,各地区,机会,预测,2017年~2031年Packaging Robotics Market Assessment, By Robot Type, By Gripper, By Application, By End-user, By Region, Opportunities and Forecast, 2017-2031F |
根据预测,2024-2031年预测期内,全球包装机器人市场规模将以12.14%的复合年增长率扩大,从2023年的67.3亿美元增加至2031年的168.3亿美元。包装机器人市场随着物联网 (IoT)、自动化和机器人系统等智慧技术整合而不断发展。许多行业越来越多地采用自动包装线来提高生产力。机器的使用使公司可以避免生产中的人为错误,提高产量,并且可以在白天或晚上的任何时间不间断地运作。这种趋势在生产速度和包装精度至关重要的行业中最为明显,例如食品和饮料、药品和其他快速消费品。在包装机械领域,人工智慧 (AI) 和机器学习积极改变包装机器人的行为。例如,透过应用人工智慧,可以预测何时需要维护。因此,透过预测性维护减少停机时间可以减少维护使用量。基于机器学习的分析可以轻鬆地根据历史资料产生最佳的包装布局和高效的工作流程配置,从而减少效率低下和浪费。
协作机器人,也称为协作机器人,是人类可以安全执行的下一代机器人,因为它们可以执行简单且重复的任务,例如分类、包装和堆迭。结果,人类工作者从事复杂的问题解决活动。大多数协作机器人比工业机器人更通用且更易于编程,因此适合小批量、多品种生产。
本报告提供全球包装机器人市场相关调查,提供市场概要,以及各机器人类型,夹具,各用途,各终端用户业界,各地区趋势,及加入此市场的主要企业简介等资讯。
Global packaging robotics market is projected to witness a CAGR of 12.14% during the forecast period 2024-2031, growing from USD 6.73 billion in 2023 to USD 16.83 billion in 2031. The packaging robotics market is evolving with smart technological integration, including the Internet of Things (IoT), automation, and robotic systems. With the aim of enhancing productivity, many industries are adopting automatic packaging lines more strongly. The use of machines avoids human error in production, increases the output of the company, and makes it possible for the firm to run without stopping all day and night. This inclination is more pronounced in industries such as food and beverage, drugs, and other fast-moving consumer goods, where the rate of production and packaging precision are of utmost importance. In packaging dynamics, artificial intelligence (AI) and machine learning positively change the operation of packaging robots. For instance, it can apply AI to help in predicting when maintenance is supposed to be done. Hence, it reduces the use of maintenance by cutting down on downtime through predictive maintenance. Analytics based on machine learning can facilitate the generation of optimal packaging layout and efficient workflow setup from historical data, thus reducing inefficiencies and wastages.
Collaborative robots, also known as cobots, are the next generation of robotics, which are safe for human interaction as they can perform simple and repetitive activities such as sorting, packing, and palletizing. Thus, relieving human workers will be left with intricate problem-solving activities. Most cobots are more versatile and easier to program than industrial robots, which makes them suitable for low-volume and wide variety production.
For instance, in September 2024, Premier Tech Ltd. launched a cobot for packing and palletizing. A Fanuc cobot arm is combined with Premier Tech's Movn software for configuration and simulation, as well as HMI setup and monitoring, in this innovative collaborative robot system. The Toma cobot (collaborative robot) system is Premier Tech's most recent product line. A Fanuc CRX-30iA collaborative robot arm and Premier Tech's Movn software, which runs the company's online configurator, are combined in this cobot system.
Expanding E-Commerce Growth and Limited Human Intervention to Propel Market Growth
The growing popularity of e-commerce has created a higher demand for effective packaging. Companies have to automate their packaging operations to cope with large volumes of orders, short turnaround times, and an assortment of products. Furthermore, many sectors are currently experiencing a personnel shortage, which is why many companies are looking for automation alternatives. Packaging and depalletizing robotic systems aid in the workforce shortage without the need for solely hand-working to maintain the enterprise's productivity.
Surely, this process increases productivity as fewer workers will handle everything, slowing down the process. This is due to the nature of robots, which enables them to work reliably even for more than a day with no shifts, thus increasing productivity and optimum use of time and resources. For this reason, companies opt for technologies that make working in a company devoid of human resources possible. It is this aspect of labor that makes it profitable to purchase robotic equipment, and hence the growth of the industry. In high-risk situations, this can help mitigate or eliminate the likelihood of risk, injury, and accidents in the workplace.
For instance, in August 2024, ValTara, a Paxiom Group company, launched a PKR-Dual delta robot case packer for pouches. Two Delta robots collaborate to pick and position items into cases quickly in the PKR-Dual Delta Robot, which picks and places cases in the packing cell.
Integration with Artificial Intelligence to Shape the Global Market Demand
AI algorithms can shift through packaging operation data and, in turn, optimize processes via pattern recognition. This allows companies to statistically enhance decision-making factors, including the production schedule with regard to materials, storage space, and resources, thus increasing efficiency. Predictive maintenance is the process of using performance data on machinery to watch out for a potential fault and avert it. This system of predictive maintenance reduces the downtime and cost of equipment repairs and breakdowns, thus ensuring that there are smooth operations of the production of packaging equipment. Hence, industrial robots become more effective since they are capable of adjusting to the environment. For instance, a packaging robot can vary its speed and force and the method of handling different products. It allows greater flexibility of the robotic system and accommodates more packaging operations. For instance, in July 2023, OSARO, Inc. launched an AI-powered robotic depalletization system to enhance efficiency and safety in e-commerce fulfillment and warehousing operations. This cutting-edge warehouse automation system was created to replace human pallet unloading, which is a labor-intensive and dangerous process.
Stringent Regulatory Compliance and Higher Precision Leads Pharmaceutical the Fastest Segment
Based on end-users, pharmaceuticals are the fastest-growing segment in the market. All pharmaceutical products have an additional yoke of regulations on packaging, which safeguards the quality and efficacy of the product. Using robotics in the packaging processes helps to perform these functions more accurately and consistently so that organizations can comply and avoid expensive penalties. The international and local pharmaceutical products regulation provides for very intricate and complicated market packaging. The prevention of contamination, limited access in children, use of tear-resistant inner seals, and even dirt-proof cases concern the medical firms. The above-mentioned critical activities are automated by robotics, thus eliminating the possibility of personnel fault.
Furthermore, the rising consumers' interest in biologics and personalized medicine drives packaging development constraints, which are more complex in scope as they must consider different kinds and sizes of products. It is the case with respect to examination in the case of judicial control in the said segment; there are clientele activities aiming at facilitating more than just reducing compliance costs to the minimum.
Another factor that motivates the investment in packaging robotics for the pharmaceutical industry is the emphasis on enhancing the efficiency of the supply chain and minimizing the timeframe for the launch of new drugs into the market. Therefore, packaging machinery accounts for a substantial share of the robotics market for the pharmaceutical industry.
For instance, in May 2024, Astellas Pharma Inc. announced a collaboration with Yaskawa Electric Corporation to build an innovative cell therapy ecosystem by integrating pharmaceutical and robotics technologies. The integration focuses on digitizing cell manufacturing processes through robotics technology.
Asia-Pacific Holds the Major Packaging Robotics Market Share
Asia-Pacific leads the global packaging robotics market's share in revenue. Emerging economies, such as China, Japan, and India, are expanding their e-commerce sector with enhanced supply chains, automated packaging, and logistic lines. The swift industrial growth in China, especially in the food and beverage, pharmaceutical, and electronics markets, has led to an increase in the need for automation. To improve manufacturing efficiencies, the government has introduced robotics and automation, which has led to investments in packaging systems. In addition, there is a growing trend of offering suitable packaging styles due to the growth of online shopping.
Japan is equipped with high automation technology and has high research expenditure. The elderly population in the country's workforce has forced manufacturers to incorporate robotics to enhance their output, from quality and precision objectives in bulk manufacturing of drugs and food products to the increasing need for systems that can package products. Japanese robotics developers focus on the packaging industry and deliver robotic solutions accordingly.
In February 2023, a Japanese manufacturer, FANUC Corporation, launched two additions to its SCARA pick-and-place robot range, including cleanroom-standard and pedestal-mounted SR-3iA/C three-axis and SR-6iA/C four-axis robots. In addition to being extremely hygienic, the new SCARA models have a tiny footprint that makes it possible to integrate smaller work cells without sacrificing efficiency.
Future Market Scenario (2024 - 2031F)
The integration of IoT technology is going to enable the rise of smart packaging solutions. These packages can communicate with supply chain systems, monitor product conditions, and provide real-time data, enhancing traceability and reducing waste.
Artificial intelligence is likely to play a crucial role in optimizing packaging processes. Machine learning algorithms can analyze data in real time to enhance efficiency, predict maintenance needs, and improve quality control.
Cobots are expected to become more prevalent, working alongside human operators to increase productivity and safety. Their adaptability makes them ideal for small and medium-sized enterprises looking to automate without significant disruption.
Key Players Landscape and Outlook
Key players in the packaging robotics market are adopting strategies focused on innovation, partnerships, and customer-centric solutions to maintain their competitive edge. Many companies are investing heavily in research and development to enhance the capabilities of their robotic systems, incorporating advanced technologies such as artificial intelligence, machine learning, and IoT for smarter automation. Strategic partnerships and collaborations with other technology firms and industry leaders are common, enabling these companies to leverage complementary strengths and broaden their product offerings. Additionally, key players emphasize customization and flexibility in their solutions to meet the diverse needs of various industries, from food and beverage to pharmaceuticals. By focusing on sustainability and eco-friendly practices, they align with market trends and consumer demands, further solidifying their position in the rapidly evolving robotics landscape.
For instance, in November 2023, ABB Ltd. launched the IRB 930 SCARA robot, transforming pick-and-place and assembly operations. The new robot was created to satisfy the demands of new growth prospects in both conventional and new sectors. It comes in three variations that can handle weights weighing 12 kg and 22 kg.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.