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市场调查报告书
商品编码
1383416
到 2030 年全球零齿隙减速机市场预测:按轴向、轴形状、应用和区域进行分析Zero-Backlash Reducer Market Forecasts to 2030 - Global Analysis By Shaft Orientation, By Shaft Shape, Application and By Geography |
根据 Stratistics MRC 的数据,全球零间隙减速机市场在预测期内将以 9.5% 的年复合成长率成长。
零间隙减速器是一种精密机械零件,旨在以最小间隙或无间隙将旋转运动和扭矩从一个轴传递到另一个轴。零间隙减速机旨在消除或显着减少这种不良运动,从而在旋转输入轴和输出轴之间提供最小间隙或零间隙。零间隙减速机经常用于精确运动控制、重复性和高精度非常重要的应用,例如机器人、自动化、数控工具机和精密製造设备。
根据IFR2022,家用机器人构成了最大的消费机器人群。售出近 1900 万台(+12%)。
零间隙减速机市场是由各行业对精度不断增长的需求所推动的。在机器人、航太和自动化等领域,精密运动控制系统对于消除零件之间的间隙和间隙以及精确、可重复的运动至关重要。随着自动化趋势变得越来越普遍,对能够提供最高水准的精度和可靠性的零齿隙齿轮箱的需求不断增长。对高精度解决方案不断增长的需求使得零间隙减速机成为高精度应用发展的重要组成部分。
虽然零间隙减速器提供精确的运动控制,但其先进的工程和精密零件导致价格更高。这种成本差异可能会阻止对价格敏感的客户和预算有限的行业采用这些解决方案,从而阻碍市场扩张。
机器人需要精确的运动控制和重复性,因此需要零间隙减速器来消除间隙并确保精确度。随着製造、医疗保健和物流行业采用自动化和机器人技术,对减速机的需求正在迅速增加。机器人在执行组装、手术和材料搬运等复杂任务中的作用凸显了它们的重要性。机器人技术的日益普及将增加对可靠和精确运动控制解决方案的需求,零间隙变速箱将出现显着的市场成长。
技术的进步可能会导致替代解决方案的开发,从而挑战传统的零间隙减速器市场。随着产业的发展,可能会采用新技术和设计方法,在降低成本的同时提供同等甚至更好的性能。同时,法规变化可能会要求改变这些零件的製造流程、材料和性能标准。这可能会扰乱市场并影响对传统零间隙减速机的需求。
COVID-19大流行对零间隙减速机市场产生了矛盾的影响。最初,市场面临供应链中断以及因停工而导致的製造能力下降等中断。然而,疫情也加速了自动化和机器人技术的采用,以应对工作原理的变化,例如远端工作和非接触式操作的需求。精密运动控制系统不断增长的需求最终使零间隙减速器市场受益。
在零间隙减速机市场中,同轴部分预计将占据最大的市场占有率,因为它是一种多功能且适用范围广泛的设计。同轴齿轮箱为精密运动控制提供了易于理解且节省空间的解决方案,是各种应用的理想选择。输入轴和输出轴位于同一轴线上,最大限度地减少齿隙并提供精确可靠的性能。这种多功能性使其成为许多对精确运动和可重复性至关重要的行业(例如机器人和自动化)的预设选择,从而奠定了其市场主导地位。
由于各行业对先进机器人系统的需求迅速增长,机器人产业预计将在零间隙减速器市场中实现最高的年复合成长率。机器人技术依赖精确的运动控制,零间隙减速机对于实现精确度和可重复性至关重要。随着自动化和工业 4.0 趋势的发展,机器人技术对高性能、低齿隙齿轮箱的需求不断增加。这种采用率的增加以及机器人技术的进步正在推动该领域的成长。
预计亚太地区将在预测期内主导零间隙减速机市场。这是由于该地区的快速工业化、对自动化和机器人技术的日益重视以及製造业活动的增加。该地区的汽车、电子和製造等多个行业推动了对零间隙减速器等精密运动控制解决方案的需求激增。此外,成熟製造商的存在和持续的技术进步也促进了该地区零齿隙变速箱市场的成长。
北美零间隙减速机市场可望显着成长。该地区拥有强大的製造业,处于自动化和机器人技术的前沿,是零齿隙变速箱的主要用户。此外,北美注重创新和精密工程,满足零间隙减速机的高精度要求。此外,航太、国防和工业自动化领域投资的增加预计将推动零间隙减速器的采用,从而在未来几年推动该地区市场的显着成长。
According to Stratistics MRC, the Global Zero-Backlash Reducer Market is growing at a CAGR of 9.5% during the forecast period. A zero-backlash reducer is a precision mechanical component designed to transmit rotational motion and torque from one shaft to another with minimal or no play. Zero-backlash reducers are engineered to eliminate or significantly reduce this undesired movement, ensuring that there is minimal or no clearance between the input and output shafts during rotation. They are frequently used in applications where precise motion control, repeatability, and high accuracy are crucial, such as in robotics, automation, CNC machinery, and precision manufacturing equipment.
According to IFR 2022, Robots for domestic tasks constituted the largest group of consumer robots. Almost 19 million units (+12%) were sold.
The zero-backlash reducer market is driven by the escalating demand for precision across various industries. In sectors like robotics, aerospace, and automation, precise motion control systems are imperative to eliminate play or clearance between components, ensuring accurate and repeatable movements. As automation trends continue to flourish, the need for zero-backlash reducers to provide the highest levels of precision and reliability is growing. This surge in demand for precision-driven solutions positions zero-backlash reducers as a critical component in the advancement of high-precision applications.
While zero-backlash reducers offer precise and accurate motion control, their advanced engineering and precision components contribute to a higher price point. This cost differential can deter price-sensitive customers and industries with budget constraints from adopting these solutions, which hinders market expansion.
Robots demand precise motion control and repeatability, requiring zero-backlash reducers to eliminate clearance and ensure accuracy. As industries like manufacturing, healthcare, and logistics embrace automation and robotics, the demand for these reducers surges. Their role in enabling robots to perform intricate tasks, such as assembly, surgical procedures, and material handling, underscores their importance. This growing adoption of robotics drives the need for reliable and precise motion control solutions, positioning zero-backlash reducers for substantial market growth.
Technological progress can lead to the development of alternative solutions that challenge the traditional zero-backlash reducer market. As industries evolve, they may adopt new technologies or design methods that provide comparable or even superior performance with reduced costs. Simultaneously, regulatory changes can mandate alterations in the manufacturing processes, materials, or performance standards for these components. This can disrupt the market and impact the demand for traditional zero-backlash reducers.
The COVID-19 pandemic had a conflicting effect on the zero-backlash reducer market. Initially, the market faced disruptions, including supply chain interruptions and reduced manufacturing capacity due to lockdowns. However, the pandemic also accelerated the adoption of automation and robotics in response to changing work dynamics, such as remote work and the need for contactless operations. This increased demand for precision motion control systems ultimately benefited the zero-backlash reducer market.
The coaxial orientation segment is expected to capture the largest market share in the zero-backlash reducer market due to its versatile and widely applicable design. Coaxial reducers offer a straightforward and space-efficient solution for precise motion control, making them ideal for various applications. Their alignment of input and output shafts along the same axis minimizes backlash, ensuring accurate and reliable performance. This versatility allows them to serve as a default choice in many industries, such as robotics and automation where precise motion and repeatability are paramount, contributing to their anticipated dominance in the market.
The robotics segment is projected to experience the highest CAGR in the zero-backlash reducer market due to the surging demand for advanced robotic systems in various industries. Robotics relies on precise motion control, making zero-backlash reducers essential for achieving accuracy and repeatability. As automation and Industry 4.0 trends continue to gain momentum, the need for high-performance, low-backlash reducers in robotics is increasing. This growing adoption, along with advancements in robotic technologies, is propelling segment growth.
Over the forecast period, the Asia-Pacific region is expected to dominate the zero-backlash reducer market owing to the region's rapid industrialization, growing emphasis on automation and robotics, and increased manufacturing activities. This surge in demand for high-precision motion control solutions, such as zero-backlash reducers, is driven by various industries in the region, including automotive, electronics, and manufacturing. Additionally, the presence of established manufacturers and ongoing technological advancements contribute to the region's growth in the zero-backlash reducer market.
North America is set to experience significant growth in the zero-backlash reducer market. The region boasts a robust manufacturing sector and is at the forefront of automation and robotics, which are major users of zero-backlash reducers. Additionally, North America places a strong emphasis on technological innovation and precision engineering, aligning with the high-precision demands of these reducers. Furthermore, increased investments in aerospace, defense, and industrial automation are expected to drive the adoption of zero-backlash reducers, contributing to the region's significant market growth in the coming years.
Some of the key players in Zero-Backlash Reducer Market include: Harmonic Drive LLC, Nabtesco Corporation, Neugart GmbH, Apex Dynamics, Inc., Zero-Max, Inc., ABSSAC Limited, Nexen Group, Inc., THK Co., Ltd., Wittenstein SE, SPINEA, SUMITOMO (SHI) Cyclo Drive Germany GmbH, Sunus Tech Co., Ltd., Andantex USA Inc, Bauer Gear Motor, FAULHABER Drive Systems, HANGZHOU CHINABASE MACHINERY CO., LTD. and Sankyo Automation.
In October 2023, ABB Robotics and Porsche Consulting have announced their collaboration to drive automation in the construction industry with a pilot project to develop innovative new practices in modular housing manufacture. The collaboration will help to meet the need for more affordable and sustainable buildings and reduce the environmental impact of construction, amid widespread labor and skills shortages.
In January 2023, Nabtesco Corporation announced that it has acquired Copas Systemes SAS, a French automatic door distributor, as a consolidated subsidiary as of January 3, 2023 by acquiring 100% of the outstanding shares in Copas Systemes SAS through Nabtesco's wholly-owned Switzerland subsidiary Gilgen Door Systems AG.
In April 2020, Neugart is extending its portfolio of planetary gearboxes, especially for rack and pinion drives, with an additional option for a mounted pinion from its in-house production. Two specific types of pinion are available: the PK1 pinion is mounted to the splined output shaft of the gearbox, whereby the secure connection that is required is provided by internal teeth in accordance with DIN 5480. The PM1 pinion, on the other hand, is designed for gearboxes with a flange output shaft, and is equipped with a mechanical interface which is standardized in accordance with EN ISO 9409-1. Both types are available with a helical cut, and the PK1 is also available with a straight cut.