首頁 > 市場調查報告書 > 電子零件/半導體

感測器

市場調查報告書

商品編碼

1683405

扭矩感測器：市場佔有率分析、行業趨勢和統計、成長預測（2025-2030）

Torque Sensor - Market Share Analysis, Industry Trends & Statistics, Growth Forecasts (2025 - 2030)

出版日期: 2025年03月18日 | 出版商:

Mordor Intelligence | 英文 118 Pages | 商品交期: 2-3個工作天內

價格

※ 本網頁內容可能與最新版本有所差異。詳細情況請與我們聯繫。

簡介目錄

預計預測期內扭矩感測器市場複合年成長率為 9.68%。

主要亮點

扭矩感測器以多種方式測量扭矩。基本原理是測量用於旋轉（或試圖旋轉）元素的“力”的機械過程。此外，當對軸施加“扭矩”力時，軸會扭曲（僅扭曲很小的量）。
此外，技術的改進以及無線和數位組件與扭矩感測器的整合有望幫助維持市場成長。此外，工業 4.0、工業自動化、機器人和智慧工廠的概念正在增加扭矩感測器的市場機會。航太、汽車和醫療領域的趨勢正在推動市場需求。
此外，由於對提高安全性、控制和飛行員操作的需求不斷增加，預計各航太公司將採用扭力感測器。這些感測器用於測量飛行過程中的扭矩控制、驅動系統和煞車系統。此外，為了保持市場競爭力，扭力感測器供應商正在推出適合特定應用的新產品。
市場供應商正在整合新技術並將新產品引入市場。大多數扭力感測器需要滑環將扭力讀數從旋轉軸傳輸到靜態讀數設備。通常，這些系統在使用時噪音很大、設定時間較長，而且其磨損部件並不總是可靠的。為了克服這些挑戰，一些公司將表面聲波（SAW）檢測與無線技術結合。
例如，2020 年 12 月，英國感測器製造商 Sensor Technology 宣布推出基於四元件應變計橋的新一代非接觸式扭力感測器，該感測器是對使用表面聲波 (SAW) 檢測的現有非接觸式感測器的補充，同時以相同的價格提供更高的精度。
市場面臨的關鍵挑戰之一是由於扭矩感測器應用的多樣性而帶來的技術挑戰。不同環境中的不同應用會影響這些感測器的準確性和可靠性。此外，電動車的轉速明顯更高，這對扭力感測器提出了挑戰。
此外，醫療行業的外科醫生需要能夠進行精確控制和可重複運動的儀器，通常需要體積小巧。扭矩感測器與先進的電子設備相結合有助於提供這種功能。這些感測器的開發人員將面臨工程挑戰，特別是將它們整合到手術機器人設備中。例如，測量扭矩對於確保機器人工具能夠執行精確和無縫的運動至關重要，但將感測器整合到這些複雜的醫療系統中對開發人員來說是一個挑戰。

扭力感測器市場趨勢

汽車應用佔據最大市場佔有率

旋轉扭力感知器用於變速箱測試、應變測量、離合器、煞車、懸吊系統、動力傳動系統和引擎的動態扭力測試。
隨著汽車產量的增加，市場正面臨潛在的成長。受新冠疫情影響，2020年全球輕型車產量將降至7,000萬輛左右。預計汽車市場將在2023年左右反彈並恢復疫情前的產量。預計2025年全球輕型汽車產量將達到約9,300萬輛（資料來源：舍弗勒集團）。
此外，電動車不需要變速箱或離合器。儘管如此，引擎仍會產生扭力來驅動窄範圍的引擎轉速和檔位，並且相同的扭力也用於加速。這就是為什麼需要扭矩感測器。
扭力也負責轉動方向盤，而強化方向盤的各種發展正在為公司創造多種商機。例如，2020年9月，舍弗勒與博世汽車轉向系統合作，推出並擴展其智慧機電整合後輪轉向系統產品組合。該技術依靠方向盤中的扭矩感測器來收集資料。控制單元已經整合到電子控制器中，可以計算並協助騎士進行轉向。計算駕駛員施加的扭矩時也會考慮車輛的其他幾個參數。因此，這些參數正在推動市場的成長。
此外，隨著對汽車的需求不斷增加，汽車產業製造業正在利用先進機器人的自動化流程。例如，具有高有效載荷能力和長距離的大型機器人用於焊接車身面板，而小型機器人用於焊接支架和座椅等子組件。在機器人 MIG 和 TIG電弧焊接中，焊槍每個週期都定位在相同的方向。可重複的速度和電弧間隙確保每項焊接工作都符合相同的高標準。諸如此類的應用正在推動汽車領域對扭矩感測器的需求。
此外，在汽車領域，北美和歐洲對自動駕駛汽車的需求龐大，這也推動了扭力感測器的發展。例如，特斯拉在方向盤中使用扭矩感測器來確定駕駛員是否注意轉向。根據公開記錄，該地區許多司機為了解放雙手而侵入系統。這些發展將使汽車供應商能夠確保道路安全。

亞太地區預計將佔據主要市場佔有率

日本、韓國、中國和印度等國家正利用自動化設備迅速改造其製造業，以提高生產效率並滿足產業需求。此外，工業自動化和機器人產業對旋轉扭矩感測器的採用越來越多，正在推動市場的發展。
汽車產業佔印度扭力感測器的大部分需求。根據 Catapult Organisations 2021 年的報告，電動車 (EV) 目前佔印度汽車總銷量的不到 1%，但該市場正在成長，預計到 2025 年價值將至少達到 48 億英鎊（4,750 億印度盧比）。然而，二輪車佔據了該市場的最大佔有率，為 62%，其次是三輪車，為 37%。此外，政府的優惠政策和汽車製造商的大量投資預計將推動印度汽車產業對扭矩感測器的需求。
同時，軒尼詩基金的數據顯示，日本在機器人和工廠自動化系統的生產方面處於世界領先地位，佔全球市場佔有率的 30%。此外，全球對工業機器人的需求以每年 46% 的速度成長，預計到 2025 年全球機器人市場規模將達到 2,485 億美元。這些數字反映了工業自動化領域對扭矩解決方案的需求不斷成長，而日本是該市場的主要聚集者。
2020年，中國工業機器人市場成長9.5%，進一步顯示對扭矩感測器的需求增加。此外，中國政府還計劃在 2025 年將國內企業的市場佔有率從 30-40% 提高一倍至 70%，這符合該國 2021 年初核准的五年計劃。
此外，中國領先的工業機器人製造商Yuibot在5月由Softbank Corporation創投公司主導的最新一輪資金籌措中籌集了1,550萬美元。這家總部位於深圳的新興企業在 2020 年也取得了成功，完成了多輪資金籌措，並憑藉其獨創性贏得了許多獎項。
此外，對扭矩解決方案的不斷成長的需求促使一些公司採取策略措施。例如，2020年7月，NSK株式會社開發出了一種非接觸式扭力感測器，可即時測量汽車驅動軸的扭力。這是世界上第一個此類感測器。這項新技術開啟了超越 CASE 的新可能性，例如提高燃油效率（降低功耗）以及提高乘坐舒適度和安全性。

扭力感測器產業概況

扭力感測器市場分散且競爭激烈，有多家供應商，包括 ABB Ltd.、Crane Electronics Ltd.、Applied Measurements Ltd.、Crane Electronics Ltd.、Honeywell International 等。大多數公司都專注於開發用於多種應用的扭矩感測器。

2021 年 4 月 - Datum Electronics Ltd 與 Nautils Labs 合作，為船東、營運商、技術經理和租船人提供全面的船舶數位化和預測決策支援解決方案。
2020 年 1 月 - 為了滿足製造業對安全協作機器人日益成長的需求，TE Connectivity (TE) 設計了一種安全扭矩感測器，該感測器透過預先實現人機協作並提高準確性和速度來整合和提高功能安全性。

其他福利：

Excel 格式的市場預測 (ME) 表
3 個月的分析師支持

公司簡介
- ABB Ltd
- Crane Electronics Ltd
- HBK Benelux（Spectris PLC）
- Applied Measurements Ltd.
- Honeywell International
- Norbar Torque Tools Ltd
- Infineon Technologies AG
- Teledyne Technologies, Inc.
- TE Connectivity Ltd
- Datum Electronics Ltd（Indutrade AB）
- PCB Piezotronics, Inc.
- Kistler Instrumente AG
- MagCanica, Inc.

第8章投資分析

第9章：市場的未來

簡介目錄

Product Code: 68023

The Torque Sensor Market is expected to register a CAGR of 9.68% during the forecast period.

Key Highlights

Torque sensors measure torque through various methods. The basic principle is a mechanical process, which measures the "force" being used (or attempting) to turn an element. Also, when a force of "torque" is applied to a shaft, the shaft twists (by a minimal amount).
Further, improvements in technology and integration of wireless and digital components into torque sensors are expected to help sustain the market's growth. Moreover, Industry 4.0, industrial automation, robotics, and smart factory concepts are increasing the market opportunities for torque sensors. The upward trend in the aerospace, automotive, and medical sectors is driving demand in the market.
Moreover, with demand increasing for improving safety, control, and pilot operations, various aerospace companies are expected to adopt torque sensors because these sensors measure in-flight torque controls, actuation systems, and braking systems. Also, to remain competitive in the market, torque sensor vendors are coming up with new products suitable for specific applications.
Market vendors are integrating new technologies to launch new products in the market. Most torque sensors need slip rings to transfer torque readings from the rotating shaft to the static readout. Generally, this system is noisy to use, slow to set up, and wearing parts are not always reliable. Some companies have integrated wireless technologies with surface acoustic wave (SAW) detection to overcome these challenges.
For instance, in December 2020, UK sensor manufacturer, Sensor Technology, announced a new generation of non-contact torque sensors based on four-element strain gauge bridges that complement its existing non-contact sensors, which use surface acoustic waves (SAW) detection, but offer improved accuracy for the same price.
One of the significant challenges the market faces is the challenge posed by the technology due to the diversity of applications of torque sensors. Due to diverse applications in different environments, the accuracy and reliability of these sensors get compromised. Moreover, electric vehicle drives run at significantly higher rotational speeds, creating challenges for torque sensors.
Furthermore, surgeons demand devices in the medical industry to allow precise control and repeatable movement, usually in a compact footprint. Torque sensors coupled with advanced electronics can help provide such capabilities. These sensor developers encounter engineering challenges integrating them into the devices, particularly for surgical robotics. For instance, measuring the torque moment is critical to ensure that robotic tools can perform precise and seamless movements, but incorporating sensors into these complex medical systems creates challenges for the developers.

Torque Sensor Market Trends

Automotive Applications Accounts For the Largest Market Share

Torque sensors have been used in the automotive industry for quite a long time as rotary torque sensors are used for testing gearbox, strain measurement, testing clutch, brake, suspension system, powertrain, and dynamic torque within the engine.
With the increasing production of the automobile, the market caters a potential growth. Amid the Covid-19 pandemic, the global light vehicle production dropped to around 70 million units in 2020. The automotive market is anticipated to bounce off, reaching the pre-pandemic production volumes around the year 2023. In 2025, it is projected that some 93 million light vehicles might be produced worldwide (source: Schaeffler Gruppe).
Further, electric vehicles do not require a gearbox or clutch. Still, the engines generate torque used to power a narrow band of engine speed or gears, and also the same torque is also used for acceleration. Thus, drives the need for torques sensors in the market.
Torque is also involved in the steering wheel rotation, and various developments to enhance the steering wheel are driving multiple opportunities for the company. For instance, in September 2020, Schaeffler partners with Bosch Automotive Steering to introduce and expand the Intelligent mechatronic Rear Wheel Steering system portfolio. The technology will involve collecting data based on the steering wheel torque sensor. The control units are already integrated with the electronic controller calculates to assist in steering for the rider. Also, the torque applied by the driver is calculated as it accounts for several other vehicle parameters. Therefore, such parameters are driving the market growth.
Moreover, with the increasing demand for automobiles, the manufacturing sectors in the automotive industry is leveraging automation process with advanced robotics. For example, large robots with high payload capabilities and long reach are being used to weld car body panels, while smaller robots are being used to weld subassemblies such as brackets and mounts. Robotic MIG and TIG arc welding positions the torch in the same orientation every cycle. With its repeatable speed and arc gap, ensure every fabrication is welded with the same high standard. Such applications are driving the need for torque sensors in the automotive sector.
Further, the automotive sector is witnessing huge demand for autonomous vehicles in North America and Europe and driving torque sensors. For instance, Tesla uses a torque sensor for the steering wheel to determine if drivers are paying attention to the steering. Many drivers in the region have been publicly documented for hacking the systems to stay hands-free. Such developments enable the automotive vendors to ensure safety on the roads.

Asia Pacific is Expected to Account For Significant Market Share

Countries such as Japan, South Korea, China, and India are rapidly transforming their manufacturing sector with automated equipment to increase production efficiency and meet the industry needs. Moreover, the industrial automation and robotic industry are witnessing the growing adoption of rotary torque sensors, which is, in turn, driving the market.
Its automotive sector majorly dominates the demand for torque sensors in India. According to Catapult Organizations report 2021, electric vehicles (EVs) currently account for less than 1% of total vehicle sales in India; the market is increasing and is expected to be worth around at least GBP 4.8 billion (INR 475 billion) by 2025. However, two-wheelers account for the largest share of this market at 62%, followed by three-wheelers at 37%. Further, the favoring government policies and heavy investments from automakers are expected to spike the demand for torque sensors for the automotive industry in India.
On the other hand, according to Hennessy Funds, Japan is the global leader in producing robots and factory automation systems and holds 30% of the worldwide market share. Further, the global demand for industrial robots is growing at 46% annually, and the global robotics market is estimated to reach USD 248.5 billion by 2025. Such figures depict the rising demand for torque solutions in the industrial automation sector, with Japan being the primary aggregator in the market.
In 2020, China's industrial robotics market grew by 9.5%, further indicating increased demand for torque sensors. Moreover, the Chinese government aims to double domestic companies' market share from 30-40% to 70% by 2025, according to the country's five-year plan approved earlier in the year 2021.
Moreover, Leading Chinese industrial robot maker Youibot generated USD 15.5 million in its latest funding round led by SoftBank Ventures in May. The Shenzhen-based startup also had a full year in 2020, completing multiple financing rounds and winning several awards for its ingenuity.
Further, several companies are taking strategic measures to tap into the rising demand for torque solutions in the market. For instance, In July 2020, NSK Ltd. has developed a non-contact torque sensor capable of measuring the torque of drive shafts in vehicles in real-time. This is the first sensor in the world of this type and capability. This new technology can increase fuel economy (reduce power consumption), improve ride comfort and safety, and open up a world of new possibilities across CASE.

Torque Sensor Industry Overview

The torque sensors market is fragmented and highly competitive due to several vendors, including ABB Ltd., Crane Electronics Ltd, Applied Measurements Ltd, Crane Electronics Ltd, and Honeywell International. Most of the companies concentrate their efforts on the development of torque sensors for multiple applications.

April 2021 - Datum Electronics Ltd has partnered with Nautils Labs to provide shipowners, operators, technical managers, and charterers with a comprehensive vessel digitalization and predictive decision support solution.
January 2020 - TE Connectivity (TE) designed a safety torque sensor with integrated and improved functional safety, including increased accuracy and speed, in advance human-robot collaboration to address the growing demand for safe and collaborative robots in manufacturing.

Additional Benefits:

The market estimate (ME) sheet in Excel format
3 months of analyst support

1 INTRODUCTION

1.1 Study Assumptions and Market Definition
1.2 Scope of the Study

2 RESEARCH METHODOLOGY

3 EXECUTIVE SUMMARY

4 MARKET INSIGHTS

4.1 Market Overview
4.2 Industry Attractiveness - Porter's Five Forces Analysis
- 4.2.1 Bargaining Power of Suppliers
- 4.2.2 Bargaining Power of Buyers
- 4.2.3 Threat of New Entrants
- 4.2.4 Threat of Substitutes
- 4.2.5 Intensity of Competitive Rivalry
4.3 Assessment of the COVID-19 Impact on the Market
4.4 Industry Value Chain Analysis
4.5 Technology Snapshot
- 4.5.1 Magnetoelastic
- 4.5.2 Strain Gauge

5 MARKET DYNAMICS

5.1 Market Drivers
- 5.1.1 Increase in Use of Torque Sensors in Robotics
- 5.1.2 Demand for Torque Sensors For Electric Power Steering (EPS) Systems
5.2 Market Challenges
- 5.2.1 Less Reliability of Torque Sensors in Certain Applications

6 MARKET SEGMENTATION

6.1 By Product Type
- 6.1.1 Reaction Torque
- 6.1.2 Rotational Torque
6.2 By Application
- 6.2.1 Automotive
- 6.2.2 Aerospace
- 6.2.3 Manufacturing
- 6.2.4 Medical
- 6.2.5 Other Applications
6.3 By Geography
- 6.3.1 North America
- 6.3.2 Europe
- 6.3.3 Asia Pacific
- 6.3.4 Rest of the World

7 COMPETITIVE LANDSCAPE

7.1 Company Profiles
- 7.1.1 ABB Ltd
- 7.1.2 Crane Electronics Ltd
- 7.1.3 HBK Benelux (Spectris PLC)
- 7.1.4 Applied Measurements Ltd.
- 7.1.5 Honeywell International
- 7.1.6 Norbar Torque Tools Ltd
- 7.1.7 Infineon Technologies AG
- 7.1.8 Teledyne Technologies, Inc.
- 7.1.9 TE Connectivity Ltd
- 7.1.10 Datum Electronics Ltd (Indutrade AB)
- 7.1.11 PCB Piezotronics, Inc.
- 7.1.12 Kistler Instrumente AG
- 7.1.13 MagCanica, Inc.