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市場調查報告書
商品編碼
1403349
到 2030 年小型電動夾具的市場預測:按類型、最終用戶和地區分類的全球分析Micro Electric Gripper Market Forecasts to 2030 - Global Analysis By Type, End User and By Geography |
根據 Stratistics MRC 的數據,全球小型電動夾具市場在預測期內將以 6.0% 的複合年成長率成長。
小型電動夾具是一種小型精密設計工具,用於自動化和機器人技術中,用於精確抓取和操縱微小物體。它採用電力驅動機構,夾持力靈活,控制精確。它對於提高機器生產率、支援精細流程以及最大限度地減少複雜任務中的人工干預至關重要。小型電動夾具可有效處理電子、醫療、實驗室自動化和組裝行業中的小型零件。
隨著公司部署自動化以提高生產力和簡化業務,對準確且多功能的抓取解決方案的需求不斷增加。超緊湊型電動夾具具有體積小、精度高和多功能抓取功能,是自動化系統的理想選擇。小型電動夾具以其緊湊的尺寸、高精度和多功能的抓取能力而聞名,完美滿足自動化系統的需求。此外,透過使用最先進的感測器和技術,微夾具的性能得到了提高,這使得它們對於自動化組裝至關重要。自動化、機器人技術和微型電動夾具的整合正在推動多個行業的創新,並加速市場的上升趨勢。
小型電動夾具是自動化系統的重要組成部分,需要定期維護以確保最佳功能。可能會出現磨損、組件故障和電氣故障等問題,從而導致潛在的停機時間並增加營運成本。同樣重要的是夾具在不同操作條件下的可靠性,例如溫度波動和密集使用。缺乏穩健的設計和材料會影響耐用性和可靠性,並可能導致生產過程的延誤。
材料科學、感測器技術和控制系統的持續創新有可能徹底改變小型電動夾具的功能。技術的進步使得夾具能夠提供更高的精度、更高的承重能力、更高的耐用性以及對各種應用的更大適應性。智慧感測器和人工智慧驅動控制的整合使夾具能夠進行即時調整,以提高自動化流程的效率和性能。此外,小型化和材料的發展將帶來更小、更靈活的夾具,適合複雜的任務,為電子、醫療保健和物流等行業開闢新的可能性。結合此類技術進步將有助於推動微型電動夾具的發展。
氣動夾具、真空夾具和軟性機器人等新型抓取解決方案提供了具有明顯優勢的可行替代技術。例如,氣壓夾具在某些應用中具有成本效益和高力輸出,而真空夾具則擅長處理多孔或不規則形狀的物體。軟性機器人機器人技術的進步也推出了適合精緻物品的靈活且適應性強的抓取解決方案。這些選項都有自己的優勢和成本效益,挑戰小型電動夾具的市場主導地位。
COVID-19大流行對小型電動夾具市場產生了各種影響。最初,由於供應鏈中斷、製造停工和全球工業活動減少,市場面臨混亂。然而,隨著各行業適應遠端操作並加速自動化以確保限制條件下的連續性,不同行業開始強調機器人技術和自動化,包括採用小型電動夾具。 「疫情加速了對非接觸式自動化解決方案的需求,為市場復甦鋪平了道路,因為企業在持續的不確定性中尋求提高效率、盡量減少人際接觸並簡化製造流程。」我敦促道。
據估計,兩指夾持器部分所佔佔有率最大。兩指夾持器設計用於僅使用兩根手指或相對的鉗口來夾持和操作物體。這些夾具具有高精度,能夠在電子、醫療保健和製造等各種行業中精細地處理小型且通常形狀不規則的物體。其緊湊的尺寸和可調節的夾持力使其能夠滿足需要精細控制和靈巧性的任務。此外,這些夾具適用於需要小心搬運和精確操作的應用,使其成為自動化系統中的重要組成部分,在小型電動夾具市場中,精度和適應性至關重要。
預計汽車領域在預測期內將出現良好的成長。汽車產業中的微電動夾具可確保各種零件(包括電子零件、感測器和小型機械元件)的搬運精度,從而最佳化汽車製造流程中的自動化和生產力。此外,這些夾具在組裝上發揮著至關重要的作用,有助於精確、有效率地搬運和操縱小零件。這些夾具可協助執行車輛組裝過程中拾取、放置和定位複雜零件等任務,從而簡化生產並加強品管。
由於其充滿活力的行業形勢和技術進步,亞太地區在預測期內獲得了最大的市場佔有率。在強大的製造業和整體行業廣泛採用自動化的推動下,中國、日本、韓國和印度等國家在市場成長方面處於領先地位。該地區快速發展的電子、汽車和半導體產業正在推動對精密和適應性強的抓取解決方案的需求。增加對機器人和智慧製造技術的投資將進一步推動微型電動夾具市場的發展。憑藉快速發展的工業生態系統以及對提高生產效率的關注,亞太地區已成為小型電動夾具的關鍵且充滿前景的市場。
由於技術創新、強勁的工業自動化和蓬勃發展的行業形勢,預計北美在預測期內將實現盈利成長。美國和加拿大在這一市場擴張中處於領先地位,先進的機器人技術和自動化技術被應用於汽車、航太、電子和醫療保健等多種行業。該地區對精密製造的關注和工業 4.0 原理的採用正在推動對微型電動夾具的需求。此外,該地區對研發的關注促進了夾具技術的不斷進步,隨著工業自動化的快速發展,鞏固了北美作為微電動夾具領先市場的地位。
According to Stratistics MRC, the Global Micro Electric Gripper Market is growing at a CAGR of 6.0% during the forecast period. A micro electric gripper is a small, precisely designed tool used in automation and robotics to accurately grasp and operate tiny objects. It uses electrically driven mechanisms that allow for flexible gripping force and precision control. It is critical to improving machine productivity, supporting delicate processes, and minimising the need for human intervention in complex work. Micro Electric Grippers are effective at handling small parts in the electronics, medical, lab automation, and assembly industries.
The need for accurate and versatile grasping solutions has increased as companies adopt automation in order to improve productivity and streamline operations. The compact size, high precision, and diverse gripping capabilities of micro electric grippers make them ideal for automated systems. Micro electric grippers, known for their compact size, high precision, and versatile gripping capabilities, perfectly align with the needs of automated systems. Furthermore, micro grippers' performance is improved by the use of cutting-edge sensors and technology, which makes them essential for automated assembly lines. The integration of automation, robotics, and micro electric grippers promotes innovation across multiple industries and accelerates the market's rising trend.
Micro electric grippers are essential components in automated systems and require periodic maintenance to ensure optimal functionality. Issues such as wear and tear, component failure, or electrical malfunctions can arise, leading to potential downtimes and increased operational costs. Also, the reliability of these grippers under varying operational conditions, such as temperature fluctuations or intensive usage, becomes crucial. A lack of robustness in design or materials might impact their durability and reliability, causing setbacks in production processes.
Continuous innovation in materials science, sensor technology, and control systems has the potential to revolutionise the capabilities of micro electric grippers. Advancements can lead to grippers with improved precision, higher payload capacities, enhanced durability, and increased adaptability to various applications. Integration of smart sensors and AI-driven controls can enable grippers to make real-time adjustments, improving efficiency and performance in automated processes. Additionally, developments in miniaturisation and materials can result in smaller, more agile grippers suitable for intricate tasks, opening new opportunities across industries like electronics, healthcare, and logistics. Embracing these technological strides fuels the evolution of micro electric grippers.
Emerging gripping solutions like pneumatic grippers, vacuum grippers, and soft robotics present viable alternatives with distinct advantages. Pneumatic grippers, for instance, offer cost-effectiveness and high force output in certain applications, while vacuum grippers excel at handling porous or irregularly shaped objects. Also, advancements in soft robotics introduce flexible and adaptable gripping solutions suitable for delicate items. These alternatives, each with its own unique strengths and cost-effectiveness, challenge the market dominance of micro-electric grippers.
The COVID-19 pandemic had a mixed impact on the microelectric gripper market. Initially, the market faced disruptions due to supply chain interruptions, manufacturing shutdowns, and reduced industrial activities globally. However, as industries adapted to remote operations and accelerated automation to ensure continuity amidst restrictions, there was an increased emphasis on robotics and automation, including the adoption of microelectric grippers in diverse sectors. The pandemic accelerated the demand for contactless automation solutions, driving resurgence in the market as businesses sought to enhance efficiency, minimise human contact, and streamline manufacturing processes in the face of ongoing uncertainties.
The Two-Finger Grippers segment is estimated to hold the largest share. Two-finger grippers are designed to grip and manipulate objects using precisely two fingers or opposing jaws. These grippers offer high precision, allowing delicate handling of small and often irregularly shaped items in various industries such as electronics, healthcare, and manufacturing. Their compact size and adjustable grip force make them versatile for tasks requiring fine control and dexterity. Moreover, these grippers cater to applications demanding meticulous handling and precise manipulation, making them an essential component in automated systems where accuracy and adaptability are paramount within the micro electric gripper market.
The Automotive segment is anticipated to have lucrative growth during the forecast period. Micro-electric grippers in the automotive industry ensure accuracy in handling various components, including electronic parts, sensors, and small mechanical elements, optimising automation and productivity in automotive manufacturing processes. Moreover, these grippers play a pivotal role in assembly lines, facilitating the handling and manipulation of small components with high precision and efficiency. They aid in tasks such as picking, placing, and positioning intricate parts during vehicle assembly, contributing to streamlined production and enhanced quality control.
Asia Pacific commanded the largest market share during the extrapolated period due to its dynamic industrial landscape and technological advancements. Countries like China, Japan, South Korea, and India spearhead market growth, fuelled by their robust manufacturing sectors and widespread adoption of automation across industries. The region's burgeoning electronics, automotive, and semiconductor industries drive the demand for precise and adaptable gripping solutions. Increasing investments in robotics and smart manufacturing technologies further boost the market for micro electric grippers. With a rapidly evolving industrial ecosystem and a focus on enhancing production efficiency, the Asia-Pacific region emerges as a pivotal and promising market for Micro Electric Grippers.
North America is expected to witness profitable growth over the projection period, owing to its technological innovation, robust industrial automation, and thriving manufacturing landscape. The United States and Canada lead this market expansion, leveraging advanced robotics and automation across diverse industries like automotive, aerospace, electronics, and healthcare. The region's emphasis on precision manufacturing and the adoption of Industry 4.0 principles fuel the demand for micro electric grippers. Moreover, the region's inclination towards research and development fosters continual advancements in gripper technology, solidifying North America as a key market for micro electric grippers amid the rapidly evolving landscape of industrial automation.
Some of the key players in the Micro Electric Gripper Market include SCHUNK GmbH & Co. KG, Destaco, IAI Corporation, SMC Corporation, Festo AG & Co. KG , Parker Hannifin Corp., SMAC Corporation, Yamaha Motor Co., Ltd., PHD Inc., Zimmer Group, OnRobot A/S, SanGo Automation, HIWIN, Jodell Robotics and Gimatic.
In December 2022, DH-Robotics launched the industrial flat electric gripper PGHL series. The new series is designed to meet the need for gripping complex workpieces in automated production lines.
In October 2022, Oriental Motor expanded the EH3-AZAKH electric gripper product line with the addition of AlphaStep AZ Series equipped electric gripper. It is smaller and lighter, measuring just 80.5mm x 36mm x 42.5mm and weighing 200g. It is approximately 55% lighter than the EH4 gripper.