投稿日:2024年12月24日

Fundamentals and analysis of rotating machine vibrations, applications to vibration troubleshooting, and their key points

Understanding Rotating Machine Vibrations

Vibrations in rotating machinery are a common phenomenon that can lead to significant issues if not properly managed.
These vibrations occur due to the dynamic forces that arise within the machinery as it operates.
Understanding the fundamentals of these vibrations is crucial for anyone involved in machine maintenance or design.

Rotating machines, such as motors, engines, turbines, and fans, are essential components in many industries.
They operate by turning parts around an axis, creating a variety of forces and movements.
When these forces are unbalanced or not evenly distributed, vibrations can occur.
These vibrations can lead to wear and tear, decreased efficiency, and, in severe cases, complete mechanical failures.

Types of Vibrations in Rotating Machinery

There are several types of vibrations that can occur in rotating machines.
The most common types include:

1. Unbalance

Unbalance occurs when the mass distribution within the rotating part is not symmetrical around the axis of rotation.
This causes a centrifugal force, leading to vibrations.
Unbalance is one of the easiest problems to diagnose and fix.

2. Misalignment

Misalignment happens when the machine’s rotational axis is not aligned with the driven equipment.
This can be angular, parallel, or a combination of both.
Misalignment can create excessive stress on machine components, leading to vibrations.

3. Looseness

Looseness occurs when parts of the machine or its foundation are not securely tightened.
This can result in operational irregularities and vibrations.

4. Bearing Defects

Defects in bearings, such as wear or damage, can lead to vibrations.
Bearings are crucial for smooth operation, and any issues can create significant vibrations and damage.

Analyzing Rotating Machine Vibrations

Analyzing vibrations in rotating machines involves gathering data to determine the source and severity of the vibrations.
This process often requires specialized equipment and software.

1. Vibration Analysis Equipment

Equipment such as accelerometers, velocity sensors, and displacement sensors can measure vibrations.
These devices capture data on vibration amplitude, frequency, and phase, which are essential for analysis.

2. Frequency Analysis

Frequency analysis involves examining the vibration frequencies to identify potential issues.
By understanding the frequencies at which vibrations occur, engineers can identify specific problems like unbalance or misalignment.

3. Time-Domain Analysis

Time-domain analysis looks at how vibrations change over time.
This helps in understanding the dynamic behavior of the machine and identifying transient or intermittent issues.

4. Signal Processing

Advanced signal processing techniques can be used to filter out noise and enhance the quality of vibration data.
This makes it easier to pinpoint the exact cause of vibrations.

Applications to Vibration Troubleshooting

Vibration troubleshooting is essential for maintaining machine health and prolonging the lifespan of equipment.
Here are some key applications:

1. Predictive Maintenance

By regularly analyzing vibrations, maintenance teams can predict when a machine is likely to fail.
This allows for timely repairs and avoids unplanned downtime, saving cost and effort.

2. Quality Assurance

Monitoring vibrations during the manufacturing process ensures that machines are built to specifications and free from defects.
This improves product quality and performance.

3. Performance Optimization

By analyzing and reducing unnecessary vibrations, machines can run more efficiently.
This leads to energy savings and improved performance.

Key Points in Managing Rotating Machine Vibrations

Managing vibrations effectively requires attention to several key points:

1. Regular Monitoring

Consistently monitoring machine vibrations is crucial to detect issues early.
This can be achieved through scheduled inspections and continuous monitoring systems.

2. Proper Installation

Ensuring that machines are correctly installed and aligned during setup can prevent many vibration issues from occurring in the first place.

3. Regular Maintenance

Routine maintenance, including lubrication, bearing checks, and component replacements, is vital to keep machines operating smoothly.

4. Balancing

Regularly balancing rotating parts can significantly reduce vibrations, enhancing machine performance and reliability.

5. Employee Training

Training employees to recognize signs of vibration issues and understand basic troubleshooting techniques is essential for quick problem-solving.

In conclusion, understanding and managing vibrations in rotating machinery is essential for maintaining operational efficiency and preventing mechanical failures.
By leveraging vibration analysis and implementing effective troubleshooting strategies, industries can ensure the longevity and reliability of their machinery.

資料ダウンロード

QCD調達購買管理クラウド「newji」は、調達購買部門で必要なQCD管理全てを備えた、現場特化型兼クラウド型の今世紀最高の購買管理システムとなります。

ユーザー登録

調達購買業務の効率化だけでなく、システムを導入することで、コスト削減や製品・資材のステータス可視化のほか、属人化していた購買情報の共有化による内部不正防止や統制にも役立ちます。

NEWJI DX

製造業に特化したデジタルトランスフォーメーション(DX)の実現を目指す請負開発型のコンサルティングサービスです。AI、iPaaS、および先端の技術を駆使して、製造プロセスの効率化、業務効率化、チームワーク強化、コスト削減、品質向上を実現します。このサービスは、製造業の課題を深く理解し、それに対する最適なデジタルソリューションを提供することで、企業が持続的な成長とイノベーションを達成できるようサポートします。

オンライン講座

製造業、主に購買・調達部門にお勤めの方々に向けた情報を配信しております。
新任の方やベテランの方、管理職を対象とした幅広いコンテンツをご用意しております。

お問い合わせ

コストダウンが利益に直結する術だと理解していても、なかなか前に進めることができない状況。そんな時は、newjiのコストダウン自動化機能で大きく利益貢献しよう!
(Β版非公開)

You cannot copy content of this page