We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for Wireless vibration sensor.
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Wireless vibration sensor Product List and Ranking from 5 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

Wireless vibration sensor Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. 江本技研 Okayama//software
  2. 旭化成エンジニアリング Tokyo//equipment
  3. 中山水熱工業 Mie//Service Industry
  4. 4 null/null
  5. 5 シロ産業 Osaka//Industrial Electrical Equipment
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Wireless vibration sensor Product ranking

Last Updated: Aggregation Period:Mar 04, 2026~Mar 31, 2026
This ranking is based on the number of page views on our site.

  1. Battery replacement every approximately 3 years is fine! A maintenance-free equipment maintenance system. 江本技研
  2. High-performance wireless vibration sensor with fault analysis capabilities for rotating machinery.
  3. Nearline PM 旭化成エンジニアリング
  4. 4 [New Technology/New Product Award Excellent Award] Patent Technology Wireless Vibration Sensor 中山水熱工業
  5. 4 Nearline-PM for Infrastructure 旭化成エンジニアリング

Wireless vibration sensor Product List

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[Conan Air Application Example] Wireless Smart Equipment Condition Monitoring System

[Conan Air Application Example] Wireless Smart Equipment Condition Monitoring System

A facility diagnosis system utilizing the Wi-Fi-enabled small vibration sensor "Conan Air." Visualize vast amounts of data and manage and confirm equipment status in one go!

Are your preventive maintenance measures for unexpected equipment shutdowns, sudden maintenance, and equipment devices foolproof? Preventing unplanned equipment shutdowns and early detection of machine anomalies significantly contributes to reducing maintenance costs and management workload. - Conan Air Official Website https://conanair.com/japan Introduction to the equipment condition monitoring and diagnostic system utilizing Conan Air - Automates the processing of vast amounts of information collected by vibration sensors, allowing for immediate understanding and management of the condition - Classifies the status of monitoring points into four categories: normal, abnormal, caution, and danger, displaying four colored icons on the monitor - Easily grasp the condition of each equipment device, the basis for abnormal judgment, and trends, facilitating responses by maintenance experts Features of the wireless smart equipment condition monitoring system - Vibration measurement achieves fully automated measurement by constantly installing multiple vibration sensors - High reliability in abnormal diagnosis accuracy (utilizing patented technology from Professor Chen Shan of Mie University, Vice President of the Japan Society for Maintenance Engineering) - Automatic judgment through condition identification methods and analysis techniques - Clearly states the basis for abnormal judgments Developer: Isis Co., Ltd. - You can try Conan Air for free for 30 days. Please feel free to contact us.

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  • Other machine tools
  • Wireless vibration sensor

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[New Technology/New Product Award Excellent Award] Patent Technology Wireless Vibration Sensor

[New Technology/New Product Award Excellent Award] Patent Technology Wireless Vibration Sensor

Award-winning technology selected through the largest-scale strict review in the country, receiving the "Excellent Award." It achieves high-precision bearing diagnostics at a low cost using patented technology.

Are you struggling with the inability to detect anomalies with inexpensive vibration meters, while expensive precision diagnostic machines cannot be implemented across all units? "Conan Air" is a groundbreaking condition monitoring IoT sensor that won the 'Excellent Award' in the general category at the 36th "Small and Medium Enterprises Excellent New Technology and New Product Award." Its patented technology, "undersampling," captures high-frequency anomalies as aliasing, even at low sampling rates, and this innovative approach was highly evaluated in the country's largest rigorous review. We also offer explosion-proof types that can be used in Class 1 hazardous locations (Zone 1) such as petrochemical plants. It overcomes the constraints of harsh manufacturing environments and allows for the immediate establishment of an advanced predictive maintenance system without the need for wiring. [Details of the patented technology and technical basis are available on the official website] https://conanair.com/japan/ ■ Monthly cloud cost: 0 yen (completely free, no subscription) ■ Non-black-box output of live waveform data (CSV) and Python integration You can try the actual device for free for 30 days. Please feel free to contact us to see if abnormal waveforms can be detected with your equipment.

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WiFi Vibration Sensor Main Unit Set / MG5VP-RF8WAC-SET

WiFi Vibration Sensor Main Unit Set / MG5VP-RF8WAC-SET

It is a wireless vibration meter that incorporates a 3-axis accelerometer and uses WiFi for wireless communication.

Communication is possible at a distance of approximately 70 meters (in a clear line of sight environment). By using an optional router, it is possible to connect up to 100 wireless accelerometers with a single PC/software.

  • Stainless steel container
  • Wireless vibration sensor

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[Ideal for food factories] Waterproof and dustproof wireless vibration sensor that can be washed with water.

[Ideal for food factories] Waterproof and dustproof wireless vibration sensor that can be washed with water.

Reliable even in strict hygiene management and humid environments. We achieve equipment maintenance IoT that is wireless, retrofittable, and washable.

Daily water washing is conducted in food and pharmaceutical factories. Are you giving up on monitoring the conditions regarding humidity, water exposure, and the hygiene of wiring? With our completely wireless retrofitted vibration sensor, you can feel secure even in environments where water is present, thanks to its robust design equivalent to IP67 waterproof and dustproof standards. We enable predictive maintenance in humid environments at a low cost. [Related information is available on the official website] We provide "operation guides in video and PDF format" to alleviate concerns before installation, as well as information on "the correct installation direction for vibration sensors (differences between 3-axis and single-axis)." We also offer foundational knowledge to maximize equipment lifespan and detailed catalog downloads. We support the realization of a clean and hygienic CBM (Condition-Based Maintenance) system. https://conanair.com/japan/support/video-guide.html ■ Monthly running cost of 0 yen (completely free) ■ High-precision diagnostics with patented technology "undersampling" ■ Raw data (CSV) output without black-boxing ・ Conan Air Official Website https://conanair.com/japan/ You can try Conan Air for free for 30 days. Please feel free to contact us.

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  • Other electronic parts
  • Wireless vibration sensor

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[Explosion-proof] Wireless vibration sensor suitable for Class 1 hazardous locations.

[Explosion-proof] Wireless vibration sensor suitable for Class 1 hazardous locations.

Can be introduced at low cost in first-class hazardous areas (Zone 1) such as chemical plants. A completely wireless explosion-proof vibration sensor that requires no wiring work.

In chemical plants handling flammable gases and combustible liquids, are you struggling with the limited options for explosion-proof IoT sensors that comply with "Class 1 hazardous locations (Zone 1)," which are either extremely expensive at several hundred thousand yen per unit or require extensive wired installation work? "Conan Air" is a practical Wi-Fi vibration meter that offers "explosion-proof type" as a standard option at an overwhelmingly low cost. It can be safely and quickly installed in harsh facilities and factories designated as Class 1 hazardous locations (Zone 1) without the need for wiring. With its patented technology of "undersampling," it provides high-precision anomaly detection capabilities to prevent unexpected shutdowns of general rotating machinery such as pumps and fans in hazardous areas. [Details on explosion-proof type specifications and use cases are available on the official website] https://conanair.com/japan/ ■ Monthly cloud usage fee: 0 yen (no subscription required) ■ Raw data output without black-boxing You can try the actual device for free for 30 days. Please feel free to consult us to see if it fits your plant.

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  • Other electronic parts
  • Wireless vibration sensor

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Wireless vibration sensor for public infrastructure used in water supply and sewage treatment facilities.

Wireless vibration sensor for public infrastructure used in water supply and sewage treatment facilities.

Accurate detection of bearing abnormalities in a demonstration experiment at Kurashiki City Waterworks Bureau! Low-cost Wi-Fi vibration meter protects pumps in water treatment facilities.

In water supply and sewage systems, as well as water treatment facilities, where stable operation 24 hours a day, 365 days a year is an absolute requirement, sudden equipment failures such as pump malfunctions can have a significant impact. The Wi-Fi vibration sensor "Conan Air" is a low-cost, high-precision predictive maintenance and condition monitoring IoT system that supports public infrastructure. It has a proven track record of accurately identifying bearing damage in operating pumps during demonstration experiments at the Kurashiki City Waterworks Bureau. Thanks to patented undersampling technology, it enables detailed FFT analysis using raw data (CSV) as well as trend management that meets ISO standards, even with inexpensive sensors. This significantly reduces the inspection burden on-site. ■ Main features of Conan Air - Zero wiring work with magnets installed on operating pumps and motors - High-precision early detection of bearing damage proven in public infrastructure - Long-term operation with commercially available batteries and safe remote monitoring via an internal local network - No monthly subscription required [Demonstration experiment and waveform analysis for bearing damage detection] https://conanair.com/japan/case-study/bearing_damage_detection.html We are offering a 30-day free trial. Please feel free to apply.

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[Sonas x02 Introduction Case] Demonstration Experiment of Condition Monitoring at a Dam

[Sonas x02 Introduction Case] Demonstration Experiment of Condition Monitoring at a Dam

We will contribute to addressing the aging issues of infrastructure structures, including large concrete structures, and disaster prevention measures.

To verify the effectiveness of new maintenance and management methods for aging river structures, which are deteriorating like other infrastructure, we conducted a demonstration experiment using 'sonas x02' at a river demonstration field provided by Kawasaki City. The dam undergoes monthly gate opening and closing operation checks and visual inspections; however, due to the considerable time elapsed since its construction, there was a need for new technologies to assess its condition and enable remote monitoring. Therefore, we utilized this product to sense the vibrations of the dam during gate operations and flood occurrences, comparing them with normal vibrations to verify the dam's condition. The feature of operating for extended periods on dry batteries outdoors also met the requirements needed for this demonstration experiment. 【Case Study】 ■ Client: Kawasaki City ■ Challenges Before Implementation - There is an urgent need to establish maintenance and management methods utilizing new technologies for aging river structures. ■ Reason for Selection - Vibration monitoring during gate operations and flood occurrences is possible even outdoors without a power source. *For more details, please refer to the PDF document or feel free to contact us.

  • Other measurement, recording and measuring instruments
  • Wireless vibration sensor

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【SCOPE】

【SCOPE】

A facility monitoring system realized at an overwhelmingly low cost.

It is a monitoring system using wireless sensing that can be built at an overwhelmingly low cost. It can utilize a variety of sensors centered around vibration. As a result of achieving low power consumption while maintaining sufficient sensitivity to detect abnormal signs, it has achieved a battery life of about three years with measurements taken every five minutes (using a CR2032 button battery). It is possible to start small with a low-cost investment and gradually increase the number of sensors to improve the reliability of the entire line.

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  • Other production management systems
  • Vibration Monitoring
  • Wireless vibration sensor

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Battery replacement every approximately 3 years is fine! A maintenance-free equipment maintenance system.

Battery replacement every approximately 3 years is fine! A maintenance-free equipment maintenance system.

Efforts to save power! Achieving long lifespan without compromising sensitivity through the use of special modes and consideration of calculation methods.

The SCOPE sensor is both inexpensive and designed for low power consumption. While I cannot provide details due to proprietary information, we achieve long battery life without sacrificing sensitivity through the use of special modes and careful consideration of calculation methods. Specifically, we have achieved a battery life of around three years (with individual variations) through measurements taken every five minutes. In contrast, many other wireless vibration sensors typically measure once a day, making high-frequency measurements like those of SCOPE impractical from a battery life perspective. As a result of high-frequency measurements, we can accurately measure vibrations even in machines like automatic activation devices, where the timing of operation is unpredictable. *For more detailed information, please refer to the related links. Feel free to contact us for further inquiries.*

  • Sensors
  • Wireless vibration sensor

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Nearline PM

Nearline PM

"You won't see any 'signs' unless you measure above 10kHz" - The reason bearing abnormalities manifest at high frequencies.

Did you know that abnormalities in the bearings of rotating machinery actually appear most quickly in the high-frequency range above 10 kHz? Despite signs appearing 3 to 6 months before a failure, many sites are unable to measure these signals. This document clearly explains the necessity of high-frequency measurements from both the perspective of actual measurement data and diagnostic techniques.

  • Vibration Monitoring
  • shaft
  • Generators and transmission motors
  • Wireless vibration sensor

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Wireless vibration sensor for energy infrastructure patented technology

Wireless vibration sensor for energy infrastructure patented technology

Awarded the Excellence Prize in the largest domestic evaluation. Achieving high-precision bearing diagnostics at a low cost.

In the energy infrastructure industry, the stable operation of equipment is crucial, and it is essential to detect abnormalities in infrastructure equipment early to prevent accidents. Particularly in critical facilities such as power plants and substations, early detection of signs such as vibrations and unusual noises, along with appropriate maintenance, is vital for extending the lifespan of the equipment and ensuring safety. There are challenges in that inexpensive vibration meters make abnormal detection difficult, while expensive precision diagnostic machines are hard to implement across all equipment. Our patented technology, "undersampling," is utilized in our wireless vibration sensors, which achieve high-precision bearing diagnostics at a low cost, enabling early detection of equipment abnormalities. 【Usage Scenarios】 - Power generation turbines - Pumps - Transmission equipment - Substation equipment 【Benefits of Implementation】 - Reduced risk of equipment failure - Lower maintenance costs - Improved equipment operating rates - Realization of planned maintenance through predictive maintenance

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Nearline-PM for Infrastructure

Nearline-PM for Infrastructure

No wiring work required, easy to install later. Constant monitoring of infrastructure equipment vibrations.

In the infrastructure industry, continuous monitoring is required to maintain the integrity of structures such as bridges and tunnels. In particular, vibrations are an important indicator of deterioration or abnormalities in structures. Nearline-PM enables quantitative and objective management of infrastructure equipment's vibrations through wireless vibration sensors, allowing for early detection of anomalies. It does not require wiring and is easy to retrofit, making it simple to implement in existing facilities. 【Usage Scenarios】 - Bridges - Tunnels - Plant equipment 【Benefits of Implementation】 - Early detection of equipment abnormalities, reducing repair costs - Enables planned maintenance, contributing to the longevity of equipment - Improves the efficiency of inspection work through remote monitoring

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Nearline-PM for Mining

Nearline-PM for Mining

Early detection of abnormalities in mining equipment using vibration sensors. Supporting improved operational efficiency.

In the mining industry, stable operation of equipment is essential for ensuring productivity and safety. In particular, equipment such as motors, pumps, and conveyors used in harsh environments has a high risk of failure due to vibration, and unexpected shutdowns can lead to significant losses. Nearline-PM addresses these challenges by enabling early detection of equipment anomalies and facilitating planned maintenance, thereby contributing to improved operational rates. 【Use Cases】 - Equipment such as motors, pumps, and conveyors in mining plants - Equipment prone to anomalies caused by vibration - Situations where remote monitoring of equipment operation is desired 【Benefits of Implementation】 - Prevents unexpected equipment shutdowns, maintaining productivity - Reduces maintenance costs - Extends the lifespan of equipment

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Nearline-PM for the Energy Industry

Nearline-PM for the Energy Industry

A wireless vibration sensor for early detection of abnormalities in energy equipment.

In the energy industry, equipment monitoring is crucial for the stable operation of plants and power stations. Equipment failures can lead to power supply interruptions and significant losses. It is especially important to detect abnormalities in rotating equipment such as motors, pumps, and fans early and to carry out planned maintenance. Nearline-PM is a wireless vibration sensor that addresses these challenges. 【Usage Scenarios】 - Power plants - Substations - Oil plants - Gas plants 【Benefits of Implementation】 - Prevents unexpected equipment shutdowns - Reduces maintenance costs - Extends equipment lifespan

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Nearline-PM for Mining

Nearline-PM for Mining

Optimize the operation of mining equipment with vibration sensors. No wiring required, easy to retrofit.

In the mining industry, the stable operation of equipment affects production efficiency. Particularly for critical equipment such as crushers and conveyors, it is important to detect abnormalities caused by vibrations early and to carry out planned maintenance. Sudden failures can lead to significant losses due to operational downtime. Nearline-PM addresses these challenges through vibration diagnostics of equipment using wireless vibration sensors. 【Usage Scenarios】 * Crushers * Conveyors * Pumps * Fans 【Benefits of Implementation】 * Early detection of equipment abnormalities and realization of planned maintenance * Prevention of sudden failures, reducing losses from operational downtime * Improvement of equipment operating rates and enhancement of production efficiency * Reduction of maintenance costs * On-site equipment condition monitoring and efficiency improvement

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Near-Line PM for Disaster Prevention

Near-Line PM for Disaster Prevention

We will detect bearing abnormalities early and ensure the safety of infrastructure facilities.

In the field of disaster prevention, the stable operation of infrastructure facilities is essential for protecting the safety of the public. In particular, failures of rotating machinery such as pumps and generators can reduce the ability to respond in emergencies. Nearline PM contributes to the stable operation of infrastructure facilities by enabling early detection of bearing abnormalities in these devices, allowing for proactive maintenance. 【Usage Scenarios】 - Pump equipment at fire stations - Emergency generators at disaster prevention centers - Air conditioning systems in public facilities 【Benefits of Implementation】 - Reduction of equipment downtime - Improvement of emergency response capabilities - Optimization of maintenance costs

  • Vibration Monitoring
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  • Generators and transmission motors
  • Wireless vibration sensor

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Nearline PM for Financial Institutions

Nearline PM for Financial Institutions

Early detection of bearing abnormalities to reduce fraud risk.

In financial institutions, stable operation of equipment is essential, and system downtime due to fraudulent activities can lead to significant losses. In particular, abnormalities in rotating machinery, which are critical infrastructure, can trigger a complete system shutdown. Nearline PM detects bearing abnormalities in high-frequency bands above 10 kHz, capturing signs of failure early to prevent system downtime caused by fraud risks. 【Usage Scenarios】 * Data center air conditioning systems * Backup power supply systems * Monitoring of critical infrastructure equipment 【Benefits of Implementation】 * Improved business continuity through stable operation of equipment * Reduced risk of system downtime due to failures * Early detection of abnormalities through high-frequency measurements

  • Vibration Monitoring
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  • Wireless vibration sensor

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Signs of bearing abnormalities are not visible unless measured above 10 kHz.

Signs of bearing abnormalities are not visible unless measured above 10 kHz.

Condition monitoring of rotating machinery: Why should we measure above 10 kHz?

"Why can't we detect abnormalities quickly?" The reason lies in the measurement frequency range. Initial damage to bearings cannot be captured below the conventional 1kHz. This white paper summarizes the reasons why high-frequency measurements (10kHz to 30kHz) change predictive maintenance.

  • Vibration Monitoring
  • pump
  • Motor
  • Wireless vibration sensor

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Condition monitoring of rotating machinery: Why should we measure above 10 kHz?

Condition monitoring of rotating machinery: Why should we measure above 10 kHz?

Why can't we detect abnormalities quickly?

The cause lies in the measurement frequency range. Initial damage to bearings cannot be detected at conventional frequencies below 1 kHz. This white paper summarizes the reasons why measurements in the high-frequency range (10 kHz to 30 kHz) change predictive maintenance.

  • probe
  • Vibration Monitoring
  • Power Transmission Equipment
  • Wireless vibration sensor

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Is ISO standards alone insufficient? New common sense in anomaly detection opened up by high-frequency measurements.

Is ISO standards alone insufficient? New common sense in anomaly detection opened up by high-frequency measurements.

Many equipment troubles depend on how quickly initial damage to bearings can be detected.

This document presents actual measurement data showing that bearing damage progresses from high frequency to medium frequency to low frequency, while organizing the differences in diagnostic accuracy brought about by high frequency measurements.

  • Vibration Monitoring
  • Metal bearings
  • Vibration Inspection
  • Wireless vibration sensor

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Nearline-PM for Manufacturing Industry

Nearline-PM for Manufacturing Industry

No wiring work required! Detects equipment vibrations and enables predictive maintenance.

In the manufacturing industry, production stoppages due to equipment failures can lead to significant losses. In particular, rotating machines such as motors, pumps, fans, and compressors often exhibit abnormal vibrations as signs of impending failure, making early anomaly detection crucial. Nearline-PM addresses these challenges by using wireless vibration sensors for equipment vibration diagnostics, enabling early detection of abnormalities and facilitating planned maintenance. This reduces the risk of production stoppages due to unexpected failures and helps establish a stable production system. 【Use Cases】 * Anomaly detection for rotating machines such as motors, pumps, fans, and compressors * Abnormality detection in bearings * IoT implementation for equipment 【Benefits of Implementation】 * Reduction in maintenance costs * Prevention of unexpected failures * Improved equipment status verification and efficiency on-site

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Nearline-PM for Infrastructure

Nearline-PM for Infrastructure

No wiring work required, easy to install afterwards. Protects the structural integrity of infrastructure facilities through vibration diagnosis.

In the infrastructure industry, maintaining the integrity of structures such as bridges, tunnels, and plants is crucial. It is necessary to detect deterioration and abnormalities in structures early to prevent large-scale repairs and accidents. Nearline-PM uses wireless vibration sensors for vibration diagnostics, enabling early detection of abnormalities in infrastructure facilities and supporting planned maintenance. It requires no wiring work and can be easily retrofitted to existing equipment. 【Usage Scenarios】 - Vibration monitoring of bridges - Abnormality detection in plant equipment - Vibration monitoring of equipment in tunnels 【Benefits of Implementation】 - Early detection of abnormalities in structures, reducing repair costs - Prevention of unexpected accidents - Contributing to the longevity of equipment

  • Vibration Inspection
  • Vibration Monitoring
  • Safety Sensors
  • Wireless vibration sensor

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Nearline PM for the manufacturing industry

Nearline PM for the manufacturing industry

Wireless vibration sensor contributing to the early detection of bearing abnormalities.

In quality control of the manufacturing industry, stable operation of equipment is essential for maintaining product quality. Abnormalities in bearings can lead to product defects and stoppages in the production line. It is particularly important to detect early signs of bearing abnormalities that appear in the high-frequency range and take appropriate measures. Near-line PM captures signs of bearing abnormalities early through high-frequency measurements, supporting stable operation of equipment. 【Usage Scenarios】 - Monitoring of bearings in rotating machinery on the production line - Management of abnormal precursors by the quality control department - Planned maintenance by maintenance personnel 【Benefits of Implementation】 - Reduction of product defects through early detection of bearing abnormalities - Decreased risk of production line stoppages through planned maintenance - Cost reduction through increased equipment longevity

  • Vibration Monitoring
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  • Generators and transmission motors
  • Wireless vibration sensor

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Nearline PM for Logistics Warehouses

Nearline PM for Logistics Warehouses

Early detection of bearing abnormalities and support for optimizing inventory management.

In the logistics industry, the stable operation of material handling equipment (such as conveyors and forklifts) within warehouses is essential for efficient inventory management. Equipment failures can lead to inventory stagnation and shipping delays, potentially resulting in decreased customer satisfaction. Nearline PM enables early detection of abnormalities in bearings through high-frequency vibration measurement, allowing for planned maintenance. This minimizes equipment downtime and ensures a smooth flow of inventory. 【Usage Scenarios】 - Equipment such as conveyors, forklifts, and automated warehouses - 24-hour operating warehouses - Integration with inventory management systems 【Benefits of Implementation】 - Reduced risk of equipment failure - Improved inventory turnover rate - Lower maintenance costs

  • Vibration Monitoring
  • shaft
  • Generators and transmission motors
  • Wireless vibration sensor

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Nearline PM for Energy Equipment

Nearline PM for Energy Equipment

Wireless vibration sensor contributing to the early detection of bearing abnormalities.

In the energy industry, bearing abnormalities in rotating machinery are a significant issue that can lead to equipment downtime and decreased efficiency. Especially in power plants and facilities, early detection of bearing abnormalities is essential for stable operation and cost reduction. Nearline PM detects bearing abnormalities in high-frequency bands above 10 kHz, allowing for early identification of signs of failure and enabling proactive measures. 【Usage Scenarios】 - Power generation equipment - Plant equipment - Rotating machinery such as pumps, fans, and compressors 【Benefits of Implementation】 - Stable operation of equipment - Reduction in maintenance costs - Decrease in downtime due to failures

  • Vibration Monitoring
  • shaft
  • Generators and transmission motors
  • Wireless vibration sensor

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The accuracy of predictive maintenance will dramatically change! Introduction to "High-Frequency Vibration Diagnosis"

The accuracy of predictive maintenance will dramatically change! Introduction to "High-Frequency Vibration Diagnosis"

Condition monitoring of rotating machinery: Why should we measure above 10 kHz?

Did you know that abnormalities in the bearings of rotating machinery actually manifest most quickly in the high-frequency range above 10 kHz? Despite signs appearing 3 to 6 months before a failure, many sites are unable to measure these signals. This document clearly explains the necessity of high-frequency measurements from both the perspective of actual measurement data and diagnostic techniques.

  • Pharmaceutical related factory equipment
  • Vibration Monitoring
  • Vibration Inspection
  • Wireless vibration sensor

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