![]() |
市场调查报告书
商品编码
1401880
交叉滚柱直线导轨到 2030 年的市场预测:按类型、组件、应用和地区分類的全球分析Crossed Roller Linear Guide Market Forecasts to 2030 - Global Analysis By Type (Ball Cage Type, Retainer Type and Other Types), Component, Application and By Geography |
根据 Stratistics MRC 的数据,2023 年全球交叉滚柱直线导轨市场规模为 46 亿美元,预计预测期内复合年增长率为 7.3%,到 2030 年将达到 75 亿美元。
为了实现精确、无缝的线性运动,称为交叉滚子线性导轨的线性运动系统经常在多种工业应用中使用。直线导轨有两个部件:导轨和滑架。导轨的V型槽通常装有精确定位的圆柱滚轮。这对于需要精确定位和严格公差的应用至关重要。坚固的结构几乎不需要维护,并在工业环境中提供长期可靠性。
医疗保健需求增加
产量的增加是手术机器人、诊断影像设备、检测设备和復健设备等医疗设备需求增加的结果。高精度直线运动系统(例如交叉滚筒直线导轨)的需求量很大,因为它们是现代技术的重要组成部分。交叉滚子线性导轨是关键医疗应用的建议选择,因为它们提供必要的线性运动稳定性和精确度。因此,其生产中对交叉滚子直线导轨的需求直接受到此类设备需求不断增长的影响。
初始成本高
由于初期成本较高,潜在买家可能会避免购买交叉滚子直线导轨,特别是在预算有限的地区。交叉滚子直线导轨的采用率可能会受到公司选择更便宜的替代直线运动解决方案的影响。交叉滚柱直线导轨的初始成本较高,因此企业需要时间评估和决策,而决策的延迟会影响计划进度和实施速度,可能会阻碍市场拓展。
扩大製造和机械领域
自动化的采用增加通常与工业部门的成长相关,以提高生产力和效率。交叉滚子直线导轨是机器人系统和自动化产业的重要组件,因此对精密直线运动解决方案的需求不断增长。由于机械设备的产量往往随着製造业的发展而增长,交叉滚柱直线导轨和其他直线运动系统对于许多生产过程至关重要,因此对它们的精度和精密度提出了要求,并创造了广阔的市场成长机会。
安装和维护复杂性
对于最终用户来说,如果安装和维护需要特定的知识或设备,营运成本可能会增加。您可能需要支付更多费用来培训员工并聘请专业人员进行安装和维护,这可能会影响您的整体盈利。技术力较少或需要更简单安装和维护的行业可以选择安装和维护过程更简单的替代直线运动系统。
封锁和景气衰退影响了汽车、航太和一些工业部门等产业,导致产量和需求减少。工业活动的减少可能导致某些产业对直线运动系统(尤其是交叉滚轮直线导轨)的需求下降。製造商难以获得製造交叉滚子直线导轨所需的零件、原材料和组件,这可能会延迟交货和製造并对市场产生负面影响。
预计球笼部分在预测期内是最大的
球保持架类型有望实现良好的成长,因为球保持架设计将圆柱滚轮固定在导轨内,可确保一致的对准和间距。在高精度要求的情况下,有助于提高稳定性、精度和平稳运作。球保持架交叉滚子直线导轨的结构和设计可能因製造商而异,并且可以根据特定的应用需求(例如负载能力、尺寸和气候条件)进行客製化。包括球保持架或保持架,以避免滚子之间的直接接触并减少运动过程中的摩擦。此外,这种设计元素有助于减少磨损,从而有可能延长线性导轨的使用寿命。
预计医疗设备产业在预测期内将经历最高的复合年增长率。
MRI(磁振造影)、CT(电脑断层扫描器)和X光设备等医学影像系统需要影像感测器、机架和病床等移动部件的精确线性运动。交叉滚柱直线导轨可实现成功诊断和成像所需的精确、流畅的运动。为了实现精确定位和运动,线性运动系统用于各种实验室和诊断设备,例如分析仪器、显微镜和样品处理系统,从而加强了市场成长。
在预测期内,亚太地区将是高精度直线运动系统的最大需求,因为组装、电子等各个领域越来越多地使用自动化和机器人,刺激了对高精度直线运动系统的需求。製造和汽车装配线。预计将占市场占有率韩国、台湾和日本等半导体和电子行业的主要参与企业正在增加对高精度线性运动系统的需求,以支持先进的生产工艺,从而推动该地区的市场成长。
凭藉强大的工业基础并专注于自动化,电子、设备和汽车生产等行业对高精度和可靠的直线运动系统的需求日益增长。此外,在製造过程中融入高精度直线导轨,以提高产品品质和生产效率,这也是欧洲市场经常接受和投资的先进製造技术之一。因此,半导体製造、医疗设备和飞机等行业中需要高精度直线运动系统的关键应用正在推动该地区的市场成长。
According to Stratistics MRC, the Global Crossed Roller Linear Guide Market is accounted for $4.6 billion in 2023 and is expected to reach $7.5 billion by 2030 growing at a CAGR of 7.3% during the forecast period. To enable accurate and seamless linear movement, a form of linear motion system called a Crossed Roller Linear Guide is frequently employed in several industrial applications. There are two components to it, the rail and the carriage. The V-shaped groove in the rail is usually equipped with a precisely arranged set of cylindrical rollers. They offer exceptional linear motion precision and accuracy, which is essential for applications needing exact positioning and tight tolerances. Because of their sturdy architecture, they frequently require little maintenance and offer long-term dependability in industrial environments.
Increased demand in healthcare
A rise in manufacturing volume is a result of the rising demand for medical devices, including surgical robots, diagnostic imaging machines, laboratory equipment, and rehabilitation devices. Because they are essential parts of modern technologies, accurate linear motion systems like Crossed Roller Linear Guides are therefore in greater demand. Crossed Roller Linear Guides are the recommended option for crucial medical applications because they provide the necessary linear motion stability and precision. Thus, the need for Crossed Roller Linear Guides, which are utilized in their manufacture, is directly impacted by an increase in demand for such equipment.
High initial cost
Potential buyers may be discouraged from purchasing Crossed Roller Linear Guides by high upfront prices, particularly in sectors where budgets are tight. Crossed Roller Linear Guide adoption rates may be impacted by companies choosing less expensive upfront alternative linear motion solutions. Because Crossed Roller Linear Guides have a high initial cost, businesses may have to go through lengthier assessment and decision-making procedures and decision-making delays may have an effect on project schedules and implementation speed, which may hinder market expansion.
Expansion in manufacturing and machinery sectors
Increased automation adoption is frequently associated with the growth of industrial sectors in order to boost productivity and efficiency. Precise linear motion solutions are in greater demand as Crossed Roller Linear Guides are essential parts of robotic systems and automated industry. The output of machinery and equipment often rises with the growth of manufacturing industries thus the crossed roller linear guides and other linear motion systems are essential to many production processes, which is why their accuracy and precision are required which creates wide range of opportunities for the growth of the market.
Complexity in installation and maintenance
For end users, the cost of operations may go up if certain knowledge and equipment are required for installation and maintenance. Overall profitability may be impacted by companies having to pay more for staff training or for employing specialist professionals for installation and maintenance. Alternative linear motion systems that offer simpler installation and maintenance processes may be chosen by industries with less access to specialist technical competence or by those who seek more uncomplicated implementation and maintenance.
Lockdowns and the recession affected industries including the automobile, aerospace, and some industrial sectors, which saw a decrease in both production and demand. It's possible that the reduction in industrial activity led to a drop in the need for linear motion systems in certain industries, particularly Crossed Roller Linear Guides. It was difficult for manufacturers to get the parts, raw materials, and components needed to make crossed roller linear guides, which might have delayed delivery and manufacturing which negatively impacted the market.
The ball cage type segment is expected to be the largest during the forecast period
The ball cage type segment is estimated to have a lucrative growth, because consistent alignment and spacing are ensured by the ball cage type design's assistance in holding the cylindrical rollers inside the guide. In situations where great accuracy is required, this helps to increase stability, precision, and smoother motion. The ball cage type Crossed Roller Linear Guides' construction and design may vary from manufacturer to manufacturer, enabling customization depending on particular application needs including load capacity, size, and climatic conditions. In order to avoid direct contact between the rollers and reduce friction during movement, a ball cage or retainer is included. Additionally, this design element may help to reduce wear and tear, which might lengthen the linear guide's lifespan.
The medical devices segment is expected to have the highest CAGR during the forecast period
The medical devices segment is anticipated to witness the highest CAGR growth during the forecast period, for moving parts like imaging sensors, gantries, and patient beds, accurate linear motion is necessary in medical imaging systems like MRI (Magnetic Resonance Imaging), CT (Computerized Tomography), and X-ray machines. Crossed Roller Linear Guides enable the precise and fluid movement necessary for successful diagnosis and imaging. For accurate placement and movement, linear motion systems are used in a variety of laboratory instruments and diagnostic devices, including analyzers, microscopes, and sample handling systems thereby enhancing the market growth.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the need for high-precision linear motion systems was spurred by the growing use of automation and robots in a variety of sectors, including logistics, electronics manufacturing, and car assembly lines. Major participants in the semiconductor and electronics industries, such as South Korea, Taiwan, and Japan, have increased demand for accurate linear motion systems, to support their advanced production processes thus propelling the growth of the market in this region.
Europe is projected to have the highest CAGR over the forecast period, owing to strong industrial foundation and a heavy emphasis on automation and this increased the need for accurate and dependable linear motion systems in industries like electronics, equipment, and the automobile production industry. Moreover, the high-precision linear guides were incorporated into manufacturing processes to improve product quality and production efficiency, and this was one of the advanced manufacturing technologies that the European market frequently accepted and invested in. Thus critical applications in industries including semiconductor production, medical devices, and aircraft needed high-precision linear motion systems are driving the market growth in this region.
Some of the key players profiled in the Crossed Roller Linear Guide Market include MISUMI Corporation, Linear Motion LLC, PBC Linear, NSK Ltd, Schneeberger Holding AG, Bosch Rexroth AG, THK Co., Ltd, IKO International, Inc., HIWIN Corporation, Rolled Ball Screw Co., Ltd., Accent Bearings Co., Inc., Franke GmbH, Luoyang Huigong Bearing Technology Co., Ltd., Bearings & Industrial Supply Co., Inc, SF Technology CO., LTD, GMT Global Inc, NIPPON THOMPSON CO., LTD and GSF Promounts
In November 2023, MISUMI Group Inc. will launch a new feature of sheet metal welding, among various parts processing, the lead time for welded parts procurement tends to be long. and have focused on this issue and developed a proprietary technology to realize this new feature
In October 2023, MISUMI Group Inc. will start offering its services in China this will be meviy's third launch outside Japan, following Europe in and the United States and will continue to expand meviy's global rollout, providing time value to Industrial Automation customers and contributing to productivity improvement.
In February 2023, SCHNEEBERGER expands in the Asian market, With the establishment of the new technology center for systems in Shenzhen with development, production, sales and service, SCHNEEBERGER will be closer to its Asian customers and thus be able to serve them even better with high-precision single and multi-axis systems.