市场调查报告书
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到 2030 年整合机器人弯曲系统的市场预测:按类型、应用和区域分類的全球分析Integrated Robotic Bending System Market Forecasts to 2030 - Global Analysis By Type (4 Axis, 6 Axis and 8 Axis), By Application (Architectural and Construction, Automotive Manufacturing and Other Applications) and By Geography |
根据 Stratistics MRC 的数据,全球整合式机器人弯曲系统市场在预测期内将以 11.8% 的复合年增长率成长。
整合式机器人折弯系统是指将机器人技术与折弯设备结合的用于自动金属加工的综合装置。该系统整合了具有专用末端执行器的机械臂、折弯机和控制软体。根据程式规范将弯曲製程自动化,并提高金属板材和零件成形的准确性和效率。它常用于汽车、航太、製造等行业,以提高生产效率。
根据IFR2022,家用机器人构成了最大的消费机器人群。售出近 1,900 万台(成长 12%)。
对精度和品质的需求不断增长
机器人弯曲系统提供无与伦比的精度,能够在各种材料和复杂设计中实现具有一致质量的精确弯曲。这种需求来自需要精确零件规格的产业,例如汽车、航太和电子产品。随着品质保证变得至关重要,各种应用中对准确、可靠和无错误製造的需求正在推动整合机器人弯曲系统的越来越多的采用。
昂贵的投资
购买、部署机器人弯曲系统并将其整合到现有製造装置中所需的初始资本可能很大。这项投资不仅包括机器人设备的成本,还包括培训、系统整合、维护和基础设施升级的成本。此外,对于小型企业或预算有限的企业来说,此类财务支出可能会阻碍系统的采用。
新兴地区市场拓展
新兴地区的市场扩张为整合式机器人弯曲系统市场提供了重大机会。这些地区的汽车、建筑和製造等行业不断发展,需要先进的自动化解决方案来提高生产效率。这些新兴市场中机器人弯曲系统的采用为技术提供者提供了一个途径,可以推出针对不同製造需求量身定制的创新解决方案。此外,新兴经济体都市化加快、基础设施开拓以及精密製造需求不断增长等因素进一步支持市场扩张。
缺乏熟练人才和整合挑战
缺乏熟练人员和整合挑战威胁着整合机器人弯曲系统市场。部署如此复杂的系统需要编程、维护和系统整合的专业知识。机器人技术和製造领域缺乏熟练的专业人员阻碍了无缝实施。此外,整合的复杂性,包括与现有机器和软体的互通性问题,阻碍了顺利实施。所有这些因素都会影响市场的扩张。
COVID-19 大流行扰乱了整合式机器人弯曲系统市场,导致生产放缓和供应链中断。由于经济不确定性,包括汽车和製造业在内的产业面临自动化投资减少的问题。然而,这场危机凸显了自动化系统对于提高营运弹性的重要性,并促使人们重新专注于机器人技术以实现高效、非接触式製造。随着工业寻求提高生产率并适应不断变化的市场需求,这导致了逐步復苏。
预计 6 轴细分市场在预测期内将是最大的细分市场
由于其多功能性和灵活性,6 轴细分市场预计将主导整合式机器人弯曲系统市场。具有 6 轴的机器人系统在弯曲过程中的操纵和定位方面提供了更大的弹性,允许复杂的几何形状和不同的材料厚度。这种配置使折弯机能够适应多个角度并准确地执行复杂的折弯。特别是在汽车和航太产业,6轴系统是首选,因为它们可以满足多样化的生产需求,提高生产率和精度,并可处理各种零件,并巩固了其在市场中的地位。
汽车製造业预计在预测期内复合年增长率最高
由于对精密模製零件的需求增加,汽车製造业预计将具有市场上最高的复合年增长率。整合式机器人折弯系统简化了生产过程,并确保车身面板、底盘零件和车架等汽车零件成型时的高精度和一致性。此外,汽车行业需要简化製造流程、缩短週期时间并提高产品质量,这将导致该行业显着成长。
预计在预测期内,北美将占据整合式机器人弯曲系统市场的最大市场占有率。这是因为该地区汽车製造业蓬勃发展,并且正在引进自动折弯系统以提高生产效率和精度。此外,对创新製造解决方案的需求和主要市场参与者的存在正在推动北美在整合式机器人弯曲系统市场中占据巨大的市场占有率。
由于製造业强劲,预计亚太地区机器人弯曲整合系统市场将显着成长,特别是在中国、日本和韩国等国家。先进技术的日益采用和对精密製造的重视正在推动对机器人弯曲系统的需求。此外,政府在亚太地区促进工业自动化和扩大基础设施的倡议进一步增强了该地区的前景,预计机器人弯曲系统的市场将显着增长。
According to Stratistics MRC, the Global Integrated Robotic Bending System Market is growing at a CAGR of 11.8% during the forecast period. An integrated robotic bending system refers to a comprehensive setup that combines robotic technology with bending equipment for automated metal fabrication. This system integrates robotic arms equipped with specialized end-effectors, bending machinery, and control software. It automates the bending process, enhancing precision and efficiency in shaping metal sheets or components according to programmed specifications. It is often used in industries like automotive, aerospace, and manufacturing for production efficiency.
According to IFR 2022, Robots for domestic tasks constituted the largest group of consumer robots. Almost 19 million units (+12%) were sold.
Rising demand for precision and quality
Robotic bending systems offer unparalleled accuracy, enabling precise bends with consistent quality across varied materials and complex designs. This demand stems from industries like automotive, aerospace, and electronics, where components demand exact specifications. As quality assurance becomes a paramount concern, the adoption of integrated robotic bending systems rises, driven by the imperative for precise, reliable and error-free manufacturing in diverse applications.
High investments
The initial capital required for purchasing, implementing and integrating robotic bending systems into existing manufacturing setups can be substantial. This investment encompasses not only the cost of the robotic equipment but also expenses for training, system integration, maintenance, and infrastructure upgrades. Additionally, for smaller or budget-constrained enterprises, this financial outlay might hinder the adoption of these systems.
Expanding markets in developing regions
Expanding markets in developing regions present significant opportunities in the integrated robotic bending system market. These regions, experiencing industrial growth across sectors like automotive, construction, and manufacturing, seek advanced automation solutions to improve production efficiency. The adoption of robotic bending systems in these emerging markets offers avenues for technology providers to introduce innovative solutions tailored to diverse manufacturing needs. Additionally, factors like increasing urbanization, infrastructure development, and the rising demand for precision manufacturing in developing economies further drive market expansion.
Lack of skilled personnel and integration challenges
The scarcity of skilled personnel and integration challenges pose a threat to the integrated robotic bending system market. Implementing these complex systems requires specialized expertise in programming, maintenance and system integration. The shortage of skilled professionals proficient in both robotics and manufacturing hampers seamless adoption. Additionally, integration complexities, including interoperability issues with existing machinery and software, hinder smooth implementation. All of these factors affect market expansion.
The COVID-19 pandemic disrupted the Integrated Robotic Bending System market, causing production slowdowns and supply chain disruptions. Industries, including automotive and manufacturing, faced reduced investments in automation due to economic uncertainties. However, the crisis highlighted the importance of automated systems for operational resilience, prompting a renewed interest in robotics for efficient and contactless manufacturing. This led to a gradual recovery as industries sought to enhance productivity and adapt to changing market demands.
The 6 axis segment is expected to be the largest during the forecast period
The 6 axis segment is projected to dominate the integrated robotic bending system market due to its versatility and agility. Robotic systems with six axes provide greater flexibility in maneuvering and positioning during the bending process, accommodating complex shapes and varied material thicknesses. This configuration allows bending machines to reach multiple angles and perform intricate bends accurately. Industries, particularly automotive and aerospace, favor 6 Axis systems for their ability to handle diverse production needs, offering enhanced productivity, precision, and the capacity to work on a wide range of components, solidifying its position in the market.
The automotive manufacturing segment is expected to have the highest CAGR during the forecast period
The automotive manufacturing segment is anticipated to witness the highest CAGR in the market due to increasing demand for precision-formed components. Integrated robotic bending systems streamline production processes, ensuring high accuracy and consistency in shaping automotive parts like body panels, chassis components and frames. Additionally, the demand for streamlined manufacturing processes, reduced cycle times and improved product quality in the automotive domain positions this segment for significant growth.
North America is poised to command the largest market share in the integrated robotic bending system market during the forecast period. This dominance is attributed to the region's robust automotive manufacturing sector, which is increasingly adopting automated bending systems to enhance production efficiency and precision. Additionally, the demand for innovative manufacturing solutions and the presence of key market players contribute to North America's significant market share in the integrated robotic bending system market.
The Asia Pacific region is poised for significant growth in the integrated robotic bending system market due to the region's robust manufacturing sector, particularly in countries like China, Japan and South Korea. Increased adoption of advanced technologies and a growing emphasis on precision manufacturing fuel the demand for robotic bending systems. Additionally, government initiatives promoting industrial automation and the region's expanding infrastructure further contribute to the Asia Pacific's promising position, expecting substantial market growth in robotic bending systems.
Some of the key players in Integrated Robotic Bending System Market include Bystronic, Trumpf, Amada, Salvagnini Group, Prima Power, Mitsubishi Electric Corporation, Murata Machinery, Yaskawa Motoman Robotics, Kuka, ABB Robotics, FANUC Corporation, Euromac S.P.A. and Wemo Automation.
In October 2023, TRUMPF is poised to launch its TruMatic 5000 manufacturing cell with the new SheetMaster at Blechexpo in Stuttgart. Users of the new system will benefit from fully automated laser-cutting, punching and forming capabilities. The new SheetMaster enables a fully automated flow of materials within the manufacturing cell - from loading and unloading the machine to removing finished parts. TRUMPF's new machine is equipped with a six-kilowatt fiber laser to maximize productivity.
In September 2023, TRUMPF Photonic Components, a global leader in high-speed VCSEL and photodiode solutions for data communication, and KDPOF, an expert in high-speed optical networking solutions based in Spain, will showcase the first 980nm multi-gigabit interconnect system for automotive systems at the European Conference for Optical Communication (ECOC), to be held in Glasgow on October 1st-5th.
In September 2022, Murata Machinery, Ltd. has established Murata Machinery Malaysia Sdn. Bhd. in Kuala Lumpur for the local subsidiary of sales, installation, technical services of Logistics System, Material Handling System for Semiconductor Fab, and the company began operation in September.