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市场调查报告书
商品编码
1645232
红外线温度计的全球市场:成长,未来展望,竞争分析 (2025年~2033年)Infrared Thermometer Market - Growth, Future Prospects and Competitive Analysis, 2025 - 2033 |
由于技术进步以及各个领域对快速安全温度测量的需求不断增加,红外线温度计市场正在经历显着增长。红外线温度计,也称为非接触式温度计,使用红外线技术从远处检测温度,而无需接触物体或人。它们准确、高效且能立即给出结果,使其成为从医疗到工业到家庭用途的众多应用的首选。预计 2025 年至 2033 年期间红外线温度计市场复合年增长率为 8.1%。
推动因素:新冠疫情促使需求激增红外线温度计需求激增的关键推动因素是 COVID-19 疫情的爆发。世界各国政府和卫生组织建议持续监测体温,作为发现和防止病毒传播的预防措施。因此,机场、火车站、购物中心和办公室等公共场所已将体温检查作为标准规程的一部分。证据就是,红外线体温计的销售在疫情期间激增,导致大量订单积压。各大线上零售商报告称,需求空前旺盛,缺货现象频繁发生。此外,处于疫情应对最前线的医院广泛使用该设备对患者、工作人员和访客进行筛检,大大促进了市场发展。
机会:尖端科技的融合
人工智慧(AI)和物联网(IoT)等先进技术越来越多地融入红外线温度计,提供了巨大的成长机会。现代人工智慧红外线温度计可以储存温度读数,让使用者可以追踪随时间的变化。如果记录的温度超过预先定义的限制,一些先进的温度计还可以向智慧型手机或其他设备发送警报。为了证明这一点,一些科技公司和新创公司正在将 "智慧" 红外线温度计推向市场。这些设备不仅提供温度读取功能,还可以与其他智慧型设备无缝集成,以增强用户体验并提供增值服务。
阻碍因素:准确性问题
虽然红外线温度计具有非接触式的优势,但与传统接触式温度计相比,人们对其准确性存在担忧,尤其是在环境条件改变时。例如,测量结果可能受到环境温度、湿度以及与测量对象的距离等因素的影响。几项比较红外线温度计和传统温度计准确度的研究强调了这一点。一些医院和医疗专业人员也担心误读的可能性,这可能导致误诊或无法识别发烧,尤其是在关键时刻。
课题:市场饱和与品质问题
与任何需求突然增加的产品一样,红外线温度计市场充斥着众多品牌和型号。这些涌入的製造商包括信誉良好的製造商,也包括那些生产低品质设备的製造商,他们希望利用日益增长的需求。这项课题以消费者投诉和评论的形式表现出来。许多用户报告称,使用非品牌或知名度较低的红外线温度计读数不一致。此外,一些监管机构也发布了咨询意见,警告消费者使用劣质设备的潜在风险,并强调校准和品质保证的必要性。
产品分类
深入研究产品,主要有两大类:接触式温度计和非接触式温度计。 2024 年,非接触式温度计占据了最高的收入占有率,受到 COVID-19 疫情造成的需求的显着影响。世界各地的医疗机构都依赖这些温度计进行快速、卫生、有效率的读数,这大大推动了销售。然而,从 2025 年到 2033 年,接触式温度计预计将实现更高的复合年增长率 (CAGR)。接触式温度计的需求可能来自需要精确测量温度的领域,例如实验室和某些医疗场所。
最终用途分类
根据最终用途分析市场,红外线温度计可应用于农业、食品、电子和医疗等各行业。由于全球健康危机以及医疗环境中快速测温的需求,医疗保健产业成为 2024 年的主要收入来源。医院、诊所甚至家庭中红外线温度计的使用率已经大幅增加。然而,从 2025 年到 2033 年,电子产业预计将实现最高的复合年增长率。由于小型化趋势和即时监控组件温度的不断增长的需求,电子行业对红外线温度计的依赖越来越大。
区域见解
从地理角度来看,北美,尤其是美国,在 2024 年的收入方面占据市场主导地位。这是由于医疗基础设施先进、公众意识不断增强以及技术进步的快速采用。然而,从 2025 年到 2033 年,亚太地区预计将呈现最高的复合年增长率,以中国和印度等国家为首。这种激增归因于快速发展的医疗基础设施、不断增长的电子製造基地以及对先进温度监测工具认识的提高。
竞争趋势与主要公司
2025年是红外线测温仪市场竞争激烈的一年。新市场如赛默飞世尔科技公司、PCE Deutschland GmbH、HORIBA, Ltd.、Omega Engineering Inc.、Weiss Instruments LLC、Mediaid, Inc.、Fluke Corporation 和 Optris GmbH 正在加强研发并扩大销售网络,以巩固其市场地位。这些公司致力于推出先进、用户友好且具成本效益的产品,以满足各个细分市场的多样化需求。许多公司也透过併购和合作来扩大其全球影响力和产品组合。随着 2025 年至 2033 年市场日趋饱和,预计公司将增加对创新、品质保证和校准技术的投资,以确保其製造的温度计不仅先进,而且准确可靠。
The infrared thermometer market has witnessed a remarkable upswing, predominantly influenced by technological advancements and the increasing need for rapid and safe temperature measurements in various sectors. Infrared thermometers, often known as non-contact thermometers, employ infrared technology to detect temperature from a distance, ensuring that the object or person isn't touched. The precise, efficient, and instantaneous results provided by these tools have made them a preferred choice in numerous applications, from medical to industrial and domestic uses. Infrared thermometer market is estimated to grow at a CAGR of 8.1% from 2025 to 2033.
Driver: Surge in Demand Due to the COVID-19 Pandemic
A pivotal force behind the amplified demand for infrared thermometers has been the outbreak of the COVID-19 pandemic. Governments and health organizations worldwide have recommended the consistent monitoring of body temperatures as a precautionary measure to detect and prevent the spread of the virus. Consequently, public places like airports, railway stations, malls, and offices have integrated temperature checks as part of their standard protocol. Evidence for this comes in the form of soaring sales numbers and backorders for infrared thermometers during the pandemic. Major online retailers reported unprecedented demand, with stocks running out frequently. Further, hospitals, which were at the forefront of the pandemic battle, extensively used these devices to screen not only patients but also their staff and visitors, providing a substantial boost to the market.
Opportunity: Integration of Advanced Technologies
The ongoing integration of advanced technologies, such as Artificial Intelligence (AI) and the Internet of Things (IoT), into infrared thermometers presents a tremendous growth opportunity. Modern infrared thermometers equipped with AI can store temperature readings, enabling users to track changes over a period. Some advanced thermometers can also send alerts to smartphones or other devices if the recorded temperature surpasses a predefined limit. Evidence of this can be observed with several tech companies and start-ups introducing 'smart' infrared thermometers to the market. These devices not only offer temperature reading features but also integrate seamlessly with other smart devices, thus enhancing user experience and providing value-added services.
Restraint: Accuracy Concerns
While infrared thermometers offer the advantage of non-contact measurements, there have been concerns regarding their accuracy compared to traditional contact thermometers, especially in varying environmental conditions. For instance, the readings can be affected by factors like ambient temperature, humidity, and the distance from the subject. This has been highlighted by several studies comparing the accuracy of infrared thermometers with traditional ones. Some hospitals and healthcare professionals have also raised concerns over potential misreadings, which can result in misdiagnosis or failure to identify a fever, especially in crucial settings.
Challenge: Market Saturation and Quality Concerns
As with any product experiencing a sudden surge in demand, the market has become inundated with numerous brands and models of infrared thermometers, leading to market saturation. This influx includes not just reputable manufacturers but also those producing low-quality devices looking to capitalize on the heightened demand. Evidence of this challenge is visible in the form of consumer complaints and reviews. Many users have reported discrepancies in readings when using non-branded or lesser-known infrared thermometers. Furthermore, certain regulatory bodies have issued advisories, warning consumers about the potential risks of using low-quality devices, emphasizing the need for calibration and quality assurance.
Product Segmentation
Diving deep into product segmentation, there are chiefly two categories: Contact thermometers and Non-contact thermometers. In 2024, non-contact thermometers held the highest revenue share, influenced heavily by the COVID-19 pandemic's demands. Institutions worldwide relied on these thermometers for their quick, sanitary, and efficient reading capabilities, boosting their sales significantly. However, looking ahead, from 2025 to 2033, contact thermometers are expected to witness a higher Compound Annual Growth Rate (CAGR). The resurgence in demand for contact thermometers will likely stem from sectors that demand precise temperature readings, such as research labs and certain medical settings.
End Use Segmentation
Analyzing the market based on end use, infrared thermometers find application in various industries including Agriculture, Food, Electronics, Healthcare, among others. The Healthcare industry in 2024 was the leading revenue contributor, driven by global health crises and the need for rapid temperature assessments in medical settings. Hospitals, clinics, and even households significantly increased their uptake of infrared thermometers. However, the forecast for 2025 to 2033 suggests that the Electronic Industry is expected to boast the highest CAGR. With miniaturization trends and the increasing need to monitor component temperatures in real-time, the electronics industry's dependency on these thermometers is only anticipated to grow.
Regional Insights
From a geographic standpoint, in 2024, North America, particularly the US, dominated the market in terms of revenue, due to its advanced healthcare infrastructure, heightened awareness among the population, and quick adoption of technological advancements. However, from 2025 to 2033, the Asia-Pacific region, led by countries like China and India, is expected to manifest the highest CAGR. This surge can be attributed to rapidly developing healthcare infrastructure, growing electronic manufacturing hubs, and increasing awareness of advanced temperature monitoring tools.
Competitive Trends and Key Players
2025 was a year of stiff competition in the infrared thermometer market. Leading players such as Thermo Fisher Scientific Inc., PCE Deutschland GmbH, HORIBA, Ltd., Omega Engineering Inc., Weiss Instruments LLC, Mediaid, Inc., Fluke Corporation, Optris GmbH have intensified their research & development efforts and expanded their distribution networks to consolidate their market positions. They focused on launching advanced, user-friendly, and cost-effective products to cater to the varied demands across sectors. Many of them also engaged in mergers, acquisitions, and partnerships to expand their global reach and product portfolio. Moving forward, from 2025 to 2033, as the market becomes more saturated, companies are expected to invest more in innovation, quality assurance, and calibration technologies, ensuring the thermometers they produce are not only advanced but also precise and reliable.
Historical & Forecast Period
This study report represents an analysis of each segment from 2023 to 2033 considering 2024 as the base year. Compounded Annual Growth Rate (CAGR) for each of the respective segments estimated for the forecast period of 2025 to 2033.
The current report comprises quantitative market estimations for each micro market for every geographical region and qualitative market analysis such as micro and macro environment analysis, market trends, competitive intelligence, segment analysis, porters five force model, top winning strategies, top investment markets, emerging trends & technological analysis, case studies, strategic conclusions and recommendations and other key market insights.
Research Methodology
The complete research study was conducted in three phases, namely: secondary research, primary research, and expert panel review. The key data points that enable the estimation of Infrared Thermometer market are as follows:
Research and development budgets of manufacturers and government spending
Revenues of key companies in the market segment
Number of end users & consumption volume, price, and value.
Geographical revenues generated by countries considered in the report
Micro and macro environment factors that are currently influencing the Infrared Thermometer market and their expected impact during the forecast period.
Market forecast was performed through proprietary software that analyzes various qualitative and quantitative factors. Growth rate and CAGR were estimated through intensive secondary and primary research. Data triangulation across various data points provides accuracy across various analyzed market segments in the report. Application of both top-down and bottom-up approach for validation of market estimation assures logical, methodical, and mathematical consistency of the quantitative data.