Brand: Bently Nevada Description:Proximity Sensor Certificate:COO TEST REPORT WARRANTY LETTER Warranty:1 year Inventory Qty:8 Payment term:T/T Shipping Port:ShenZhen Bently Nevada 330180-50-00 is characterized by high measurement accuracy and stability and can sustain steady functioning for long periods in the various complicated industrial environments, thus providing a strong guarantee for trustworthy equipment performance.
Manufacture |
Bently Nevada |
Model Number |
330180-50-00 |
Ordering Number |
330180-50-00 |
Catalog |
3300 XL |
Country Of Origin |
America |
HS CODE |
85389091 |
Dimension |
15*5.5*8.5CM |
Packing Dimension |
18*8*11CM |
Weight |
0.35kg |
1. Specification
Input signal range: Non-isolated I/O module: +0.8V to -21.0V; Isolated I/O module: +5V to -11V.
Output signal: The output voltage is proportional to the distance between the probe tip and the conductive surface being measured. The dynamic and static position parameters can, therefore, be measured simultaneously.
Power supply: -24VDC. 4. Load: 10kΩ. 5. Operating temperature range: +18 to +27 degrees C.
System length: 5.0 meters.
Installation method: Panel mounting is possible.
2. Feature
Signal conversion and processing: Bently Nevada 330180-50-00 receives signals from Bently 3300 Eddy current sensor systems, including 3300 XL 11mm, 3300 XL 8mm, 3300 XL 25mm, 3300 XL 50mm, etc., and converts them into digital keyboard phase signals, which are useful for monitoring shaft vibration, shaft displacement, key phase, speed, overspeed protection, eccentricity, thermal expansion, differential expansion, and other physical quantities.
Dual-channel monitoring: Bently Nevada 330180-50-00 consists of a half-height, dual-channel module, which may receive two different sensor signals at the same time and provide two buffered key phase outputs. Therefore, it is convenient to monitor multiple measurement points of different types of physical quantities.
Compatibility and integration: Bently Nevada 330180-50-00 is an important part of the Bently 3500 series mechanical protection system. It works well with the series monitors, sensor probes, and framework configuration software and can achieve high integration and flexible configuration of the system suitable for the status monitoring and protection of various industrial equipment.
Good interchangeability: The 3300 XL 8mm probe, extension cable, and preamplifier are fully interchangeable and do not require any individual components to match or be calibrated. This is very convenient for users to maintain and upgrade the system, and it reduces the spare parts inventory cost.
3. Application
Power Industry
Under generator monitoring: The parameters of large rotating machinery, such as shaft vibration, shaft displacement, key phase, speed, etc., are monitored. This enables unwanted fatigue in, for example, a turbine-generator set to be detected in time by possible equipment failure, thus ensuring safe and stable running of the generator set and preventing economic losses due to downtime accidents caused by equipment failure.
Equipment monitoring at substations: In substations, the vibration of high-voltage equipment, such as transformers, is capable of indirect reflection of the internal operating status of the equipment, such as loose windings, displacement of the core, and so on. If abnormal vibration is found, timely measures can be taken to prevent the fault from further expanding, ensuring the substation has a reliable power supply.
Petrochemical Industry
Refinery key equipment monitoring: The vibration and position of key equipment-such as compressors and pumps in the refinery-are monitored. For example, the vibration monitor of the main fan in the catalytic cracking unit can detect problems such as blade imbalance and bearing damage, leading to the normal operation of the fan and thereby the continuation of the refining process.
Monitoring of pipeline systems in a petrochemical plant: The pipeline system in a petrochemical plant is huge and complex. The monitoring of the vibration of the pipeline will provide timely detection of abnormal vibrations in the pipelines to provide a basis for the maintenance and repairs needed. This also effectively prevents pipeline weld cracking, leakage, and other safety hazards to the safety of petrochemical production.
Metallurgical industries
Monitoring of steel mill rolling mills: The rolling mill is a special equipment for processing steel billets, and the rolling mill is key equipment for the rolling of steel. Bently 330180-50-00 can be used to monitor the roller vibration, shaft displacement, and other parameters of the rolling mill, helping staff make timely adjustments of the rolling mill into the right operating state and thus ensuring rolling accuracy and stability of quality of steel; hence, Bently Nevada 330180-50-00 can improve production efficiency and product quality.
Monitoring converters in a steel mill: Strong vibrations will be produced during the blowing process in the converter of the steel mill. Bently Nevada 330180-50-00 can be used to monitor the vibration of the converter and the displacement change of the furnace body. Abnormal conditions of the converter-such as lining falling off, failure of the tilting mechanism, etc.-can be discovered in time to ensure the safe operation of the converter and potentially avoid major safety accidents.
Papermaking Industries
Monitoring of a paper-making machine: The paper-making machine consists of many components such as drying cylinders, press rollers, etc. Bently 330180-50-00 can be used to monitor the vibration of each part in paper-making machines so as to timely detect problems like imbalance, and wear of these components to ensure stable running of the paper-making machine, improve paper production quality and production efficiency, reduce the breakage rate of paper, and save production costs.
Aerospace Field
Monitoring of aircraft engines: Aircraft engines are very important parts of an aircraft, and their running conditions have direct links to the flight safety. Bently 330180-50-00 is used to monitor the shaft vibration, shaft displacement, and other parameters of aircraft engines, making an important basis for evaluation and diagnosis of faults in engines, and ensuring safe and reliable running for the engines.
Aircraft Auxiliary Power Unit (APU) Monitoring: Monitor the aircraft's auxiliary power unit to be able to promptly detect failing conditions to a possible fault to ensure that the APU runs the flight in a normal manner, providing reliable power support for various aircraft systems.