In the process industry, the health status of rotating equipment is directly related to the safety and efficiency of production. As on-site engineers, we often face challenges such as abnormal equipment vibrations and unplanned shutdowns. AMS 2140 Machinery Health ™ As a powerful portable tool, the analyzer can help us quickly and accurately diagnose problems. This article aims to provide a practical guide on how to utilize the core features of AMS 2140, particularly on-site dynamic balancing and advanced vibration analysis, to solve practical operational problems.
On site dynamic balancing: step-by-step operation and techniques
Unbalanced rotor is one of the most common faults in rotating machinery. The Balance program of AMS 2140 uses the influence coefficient method to guide users through the entire process from data collection to weight calibration. Mastering the following steps can significantly improve balance efficiency.
1. Preliminary preparation and basic setup
Before starting any balancing work, it is essential to conduct a thorough visual inspection. Check for leaks, cracks, overheated bearings, loose foundations, or foreign objects adhering to the rotor surface. If these non-equilibrium problems exist, they can interfere with the equilibrium process and lead to inaccurate results.
Open AMS 2140 and enter the Balance program from the main screen. First, you need to create a new balancing job and complete the basic job setup:
Choose Balanced Mode: AMS 2140 offers two modes: Basic and Advanced. For most on-site applications, the Advanced mode provides more comprehensive parameter control, such as setting multiple measurement planes and counterweight planes. Select F7 Balance Mode to switch.
Define Plane: Based on the rotor configuration, set the Weight Planes and Measurement Planes. For simple cantilever rotors, one counterweight plane and two measurement planes (horizontal and vertical) are usually sufficient. For complex rotor systems, multi plane balancing may be required.
Enter Balance Specification: Use F8 to enter Balance Spec. to set the target vibration value. This value is the standard for determining whether the balance is qualified, and it needs to be set according to the equipment type and ISO standards.
Configure sensors: In Sensor Setup, select the appropriate sensor type (such as accelerometer) and ensure that the display unit (such as displacement micrometers or velocity mm/s) and sensitivity settings are correct. Incorrect units can lead to incorrect calculation results.
2. Obtain benchmark and trial weight data
This is a crucial step in balancing calculations, as the accuracy of data directly affects the final result.
Reference Run data collection: Collect the vibration amplitude and phase of all defined measurement points under normal equipment operation. This is the so-called 'as is' state. Ensure that the device maintains stable load, temperature, and speed during the collection process. When collecting, observe the Data Stability chart on the screen and accept the data after the amplitude and phase are stable.
Perform Trial Run: After stopping the machine, add a known weight and angle trial on the first counterweight plane. Usually, the goal of weight testing is to change the vibration amplitude or phase by at least 30% compared to the reference data, in order to establish an accurate coefficient of influence. By using the Estimate Trial Weights function in Calculator Mode, it is possible to estimate the appropriate trial weight based on the rotor weight and radius.
Collect trial weight data: Restart the device and collect data from all measurement points again under the same operating conditions.
Repeat the weight testing steps: For multi plane balancing, it is necessary to repeat the above steps on each counterweight plane and record the weight testing information added each time.
3. View calibration and execute adjustments
After completing all trial weights, AMS 2140 will automatically calculate the corrected weight and position.
View calibration plan: Select View Corr. in the Balance main menu, and the screen will clearly display the weight size and angle that needs to be added or removed for each counterweight plane.
Application calibration: After shutdown, install calibration weights based on the calculation results. It is recommended to remove all trial weights first, and then install calibration counterweights.
Verification and fine-tuning (Trim Run): Restart the device and perform a new measurement (Trim Run). If the vibration value does not reach the equilibrium specification, AMS 2140 will calculate a new fine-tuning plan based on the current response data. Repeat this process until the vibration level meets the requirements.
Advanced Vibration Analysis: Deep Troubleshooting
In addition to dynamic balancing, the Analyze program of AMS 2140 is a powerful tool for fault diagnosis. When encountering complex vibration problems, its built-in Analysis Experts can be used to quickly locate the source of the fault.
1. Utilize PeakVue ™ Technical diagnosis of bearing and gear faults