首頁 > 市場調查報告書 > 工業機械

機械元件

市場調查報告書

商品編碼

1620348

電動直線執行器的全球市場規模：按類型、按應用、按最終用戶行業、按地區、範圍和預測

Global Electric Linear Actuator Market Size By Type, By Application, By End-User Industry, By Geographic Scope And Forecast

出版日期: 2024年08月12日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

電動直線執行器市場規模及預測

電動線性執行器的市場規模預計到 2023 年為 526.9 億美元，預計到 2030 年將達到 946 億美元，2024-2030 年預測期間複合年增長率為 8.9%。

電動直線推桿的全球市場推動因素

電動線性執行器的市場推動因素可能受到多種因素的影響。

在整個企業範圍內擴展自動化：

隨著公司尋求透過自動化提高產量和效率，對電動線性致動器的需求不斷增加。執行器將電能轉換為機械運動，並促進各種應用中的精確控制和運動，對於自動化至關重要。

對工業機器人的需求不斷成長：

工業機器人越來越多地應用於製造、汽車、醫療保健和其他行業。如果沒有電動線性執行器，這些機器人系統就無法運行，電動線性執行器可以實現夾具、機器人手臂和其他部件的精確移動和定位。

自動駕駛汽車和電動車（AV）的普及：

由於汽車產業向電動和無人駕駛汽車轉型，電動線性執行器的需求量很大。這些執行器用於許多汽車系統，例如自動門、煞車、轉向和油門控制。

醫療保健領域的成長：

醫院病床、病人移位機、手術台和診斷設備只是使用電動線性執行器的一些設備。隨著世界各地人口老化和醫療保健成本的增加，對這些設備的需求不斷增加，從而推動了對電動線性執行器的需求。

專注於永續性和能源效率：

電動線性致動器不需要壓縮空氣或液壓油，使其成為傳統氣動和液壓執行器的節能替代品。隨著工業界更加重視永續性和能源經濟，電動直線推桿預計將得到更廣泛的應用。

技術開發與產品創新：

透過提高電動線性執行器的性能和適應性來持續進行技術開發，包括開發更輕、更緊湊的執行器、納入用於遠端監控和控制的物聯網功能以及材料和製造技術的進步，正在支持市場發展。

工業基礎設施的成長：

對電動線性執行器的需求受到基礎設施發展計畫的影響，特別是在發展中國家。這些執行器廣泛應用於各種基礎設施領域，包括農業、物料搬運和建築設備。

廣泛的規則和指南：

越來越多的環境保護、工人安全和產品品質方面的監管要求推動了電動線性執行器的使用。法規遵循經常需要採用先進的執行器系統來提供精確的控制和可靠性。

全球電動直線執行器市場的阻礙因素

有幾個因素可能會成為電動直線推桿市場的限制和挑戰。其中包括：

初始成本高：

與一般液壓致動器和氣動致動器相比，電動線性致動器需要較大的初始成本。這可能會限制採用，特別是對於預算緊張的小型企業和行業。

功率密度限制：

電動線性致動器的功率密度可能比液壓系統低，特別是在高負載應用。這可能會限制這些執行器在某些工業環境中的適用性。

整合複雜度：

一些公司可能會發現很難採用電動線性執行器，因為該過程可能很複雜並且需要專門的工程知識。

負載能力限制：

電動線性執行器可以處理的最大負載是有限的，因此它們可能無法用於航空航天或建築機械等高負載應用。

可靠性問題：

在惡劣的工作條件下，一些行業可能會質疑電動線性執行器與傳統液壓或氣動系統相比的壽命和可靠性。

監理要求：

監管相關要求可能會限制電動線性執行器的使用，特別是在航空航太和醫療保健等領域，這可能會阻礙市場擴張。

使用電動線性致動器

線性執行器的採用可能會因其環境影響而受到阻礙，特別是能源消耗和報廢處理。在環境法規嚴格的地區尤其如此。

技術限制：

儘管電動線性執行器正在不斷進步，但由於其速度、精度和可控性低於其他執行器技術，因此在某些應用中其使用可能受到限制。

與替代技術的衝突：

機械、氣動和液壓等替代執行器技術對電動線性執行器市場的成長構成威脅。根據應用，這些技術可能是有利的。

經濟不確定性：

在經濟低迷時期，企業可能會決定推遲資本投資或專注於削減成本的措施，這可能會限制對電動線性執行器等新興技術的投資。

As companies look to increase production and efficiency through automation, there is an increasing need for electric linear actuators. By transforming electrical energy into mechanical motion and facilitating precise control and movement in a variety of applications, these actuators are essential to automation.

Growing Need for Industrial Robotics:

Manufacturing, the automobile industry, healthcare, and other industries are using industrial robots more and more. These robotic systems would not function without electric linear actuators, which allow for the accurate movement and placement of grippers, robotic arms, and other parts.

Growing Acceptance of Autonomous and Electric Vehicles (AVs):

Electric linear actuators are in high demand due to the automotive industry's transition to electric and driverless vehicles. These actuators are utilized in a number of automotive systems, including as automated doors, braking, steering, and throttle control.

Growth of the Healthcare Sector:

Hospital beds, patient lifts, operating tables, and diagnostic equipment are just a few of the equipment that use electric linear actuators. With the aging population and increasing healthcare expenditures worldwide, there's a growing demand for these devices, consequently driving the demand for electric linear actuators.

Emphasis on Sustainability and Energy Efficiency:

Because electric linear actuators do not require compressed air or hydraulic fluids, they are an energy-efficient replacement for conventional pneumatic and hydraulic actuators. Electric linear actuators are predicted to become more widely used as industry place a greater emphasis on sustainability and energy economy.

Technological Developments and Product Innovations:

By improving the performance and adaptability of electric linear actuators, ongoing technological developments, such as the creation of lightweight, compact actuators, the incorporation of IoT capabilities for remote monitoring and control, and advancements in materials and manufacturing techniques, are propelling market expansion.

Industrial Infrastructure Growth:

The need for electric linear actuators is influenced by infrastructure development initiatives, especially in developing nations. These actuators find application in a variety of infrastructural fields, including agriculture, material handling, and construction machinery.

Extensive Rules & Guidelines:

The use of electric linear actuators is being driven by rising regulatory requirements pertaining to environmental protection, worker safety, and product quality. Regulation compliance frequently demands the employment of sophisticated actuation systems that provide accurate control and dependability.

Global Electric Linear Actuator Market Restraints

Several factors can act as restraints or challenges for the Electric Linear Actuator Market. These may include:

High Initial expenditure:

Compared to typical hydraulic or pneumatic actuators, electric linear actuators can need a large initial expenditure. This can limit adoption, particularly for smaller companies or industries with tighter budgets.

Limited Power Density:

Electric linear actuators may have a lower power density than hydraulic systems, especially in high-force applications. This could limit the applicability of these actuators in specific industrial settings.

Complexity of Integration:

Some businesses may find it difficult to adopt electric linear actuators due to the complexity of this process and the potential need for specialized engineering knowledge.

Limited Load Capacity:

The maximum load that electric linear actuators are capable of handling may be limited, which may prevent them from being used in heavy-duty applications like aerospace or construction machinery.

Concerns Regarding Reliability:

In tough working conditions, some industries may have doubts regarding the longevity and dependability of electric linear actuators in comparison to conventional hydraulic or pneumatic systems.

Regulatory Requirements:

Requirements related to regulations, especially in sectors like aerospace and healthcare, may restrict the usage of electric linear actuators, which may impede market expansion.

The adoption of electric:

linear actuators may be hindered by worries about their environmental impact, specifically with regard to energy consumption and disposal at the end of their useful life. This is particularly true in areas where environmental rules are strict.

Technology Restrictions:

Although electric linear actuators have made progress, their usage in some applications may still be limited by their inferior speed, precision, and control when compared to other actuation technologies.

Competition from Alternative Technologies:

Alternative actuation technologies, such as mechanical, pneumatic, and hydraulic systems, present a threat to the growth of the Electric Linear Actuator Market. These technologies may be advantageous in certain applications.

Economic Uncertainty:

Businesses may decide to postpone capital expenditures or emphasize cost-cutting measures during economic downturns, which can limit investment in emerging technology like electric linear actuators.

Global Electric Linear Actuator Market Segmentation Analysis

The Global Electric Linear Actuator Market is Segmented on the basis of Type, Application, End-User Industry, and Geography.

Electric Linear Actuator Market, By Type

DC Electric Linear Actuators:
These actuators are powered by direct current (DC) electrical energy. They find applications in various industries including automotive, aerospace, and robotics.
AC Electric Linear Actuators:
These actuators are powered by alternating current (AC) electrical energy. They are widely used in industrial automation, home automation, and medical equipment.

Electric Linear Actuator Market, By Application

Industrial Automation:
Actuators used in industrial automation applications such as assembly lines, material handling, and packaging.
Medical:
Actuators utilized in medical equipment such as hospital beds, patient lifts, and surgical instruments.
Agriculture:
Actuators employed in agricultural machinery for tasks like controlling valves, adjusting equipment height, and opening/closing gates.
Automotive:
Actuators integrated into automotive systems for functions like seat adjustment, mirror positioning, and throttle control.
Robotics:
Actuators used in robotics for precise control of robotic arms, grippers, and other mechanical components.

Electric Linear Actuator Market, By End-User Industry

Manufacturing:
Actuators used in manufacturing processes for controlling machinery and equipment.
Healthcare:
Actuators employed in medical devices and equipment for patient care and diagnostics.
Automotive:
Actuators integrated into vehicles for various functions including engine control, power window operation, and HVAC system control.
Aerospace:
Actuators utilized in aircraft for functions such as controlling flaps, landing gear, and aircraft doors.
Construction:
Actuators employed in construction machinery for tasks like crane operation, excavator movement, and bulldozer blade control.