Your search keyword '"Yuhai Gu"' showing total 8 results

1. Research on the excitation method of symmetrical spiral online detecting sensor of metal debris

Author

Yuhai Gu, Shuo Liu, Yunbo Zuo, and Liyong Wang

Subjects

electric potential, inductive sensors, inductance, electromagnetic fields, field programmable gate arrays, coils, low-pass filters, signal generators, electric sensing devices, lubricating oils, electromagnetic induction, tiny metal debris particles, stimulating using sinusoidal ac steady current signals, sinusoidal signal generator, sinusoidal ac steady current excitation signal, ac steady current amplification, excitation method, symmetrical spiral inductive sensor, oil return pipeline, other parameters, lubricating oil solution, symmetrical double helix coils, induced electromotive force, centre induction coil, detection accuracy, Engineering (General). Civil engineering (General), TA1-2040

Abstract

By connecting the symmetrical spiral inductive sensor to the oil return pipeline of the lubricating oil, a full flow online detection of the size, quantity and other parameters of the tiny metal debris particles in the lubricating oil solution is realised. Inductive sensors are used to excite symmetrical double helix coils, and alternating electromagnetic fields are generated. Changes in induced electromotive force are detected by the centre induction coil. In order to improve the detection accuracy of tiny metal debris particles, the degree of anti-jamming of the excitation signal, and the transmission distance, a method of stimulating using sinusoidal AC steady current signals was designed. The sinusoidal signal generator is designed based on FPGA, and the sinusoidal AC steady current excitation signal is realised through differential amplification, low-pass filtering, and AC steady current amplification, and experimental verification is performed to achieve better excitation and detection results.

Published

2019

2. Method of extracting gear fault feature based on stacked autoencoder

Author

Shuo Liu, Yulong Liu, Yuhai Gu, and Xiaoli Xu

Subjects

mechanical engineering computing, fault diagnosis, gears, feature extraction, neural nets, learning (artificial intelligence), practical fault feature extraction, fault features, network training, modified activation function, training network performance, deep learning model, complex working environments, pattern recognition, deep learning techniques, changeable condition, complicated condition, different transmission systems, stacked autoencoder, gear fault feature, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Gear and its transmission are widely used in different transmission systems, and its complicated and changeable condition brings a series of problems to the fault feature extraction and diagnosis. In recent years, deep learning techniques have been gradually applied to feature extraction and pattern recognition, and the features of feature extraction and fault diagnosis in complex working environments have shown certain advantages. This study is based on stacked autoencoder under deep learning model, and improve training network performance by modified activation function. Through the network training before and after the experiment done, and to extract the fault feature data comparison in testing, improving network after activation function to extract fault features showed a greater advantage, can be a very good application in practical fault feature extraction.

Published

2019

3. Study on online monitoring wear debris sensor of wind turbine gearbox

Author

Xiangqi Zhang, Xiaoli Xu, Yunbo Zuo, and Yuhai Gu

Subjects

sensors, wear, wind turbines, inductive sensors, lubricants, gears, condition monitoring, maintenance engineering, lubrication, fault diagnosis, lubricating oils, real-time online monitoring, wear debris detection sensor, inductive wearing debris sensor, monitoring test, metal wearing debris, metal wear debris, early fault, online monitoring wear debris sensor, wind turbine gearbox, normal operation, abundant wear debris, various wear debris, size 80.0 mum, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Lubrication is one of the critical factors for the normal operation of wind turbine's gearbox, which carries abundant and various wear debris. Accordingly, these debris reflects the running state of the equipment and forecasts the early fault of wind turbine gearbox effectively. Thus, the authors can achieve predictive maintenance, even avoid the occurrence of safety accidents. In order to realise real-time online monitoring of lubrication, this article studied the principle of wear debris detection sensor, constructed approximate mathematical model of inductive wearing debris sensor, produced a prototype device, and carried out the monitoring test of metal wearing debris without oil. Experiment shown that the designed sensor can detect the signal of metal wear debris with the smallest diameter to 80μm, which can diagnose the early fault of the wind turbine.

Published

2019

4. Review on numerical analysis of electromagnetic characteristics for ferromagnetic wear debris

Author

Tao Chen, Li-yong Wang, Yuhai Gu, and Changliang Tang

Subjects

numerical analysis, electromagnetic induction, lubricating oils, inductive sensors, wear, electromagnetic field, ferromagnetic wear debris, reliability, online ferromagnetic debris detection, electromagnetic characteristics analysis, numerical analysis method, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Wear is the main influential reason for the reliability and service life of machinery and the inductive monitoring is the most research and application of online ferromagnetic debris detection for its unique characteristics. In the electromagnetic characteristics analysis of the wear debris, the numerical analysis method can directly solve the problem of electromagnetic field in the form of value, program instead of analytic form. Based on the current research on numerical analysis of electromagnetic characteristics for ferromagnetic debris, the solved problems of numerical analysis are analysed. The core and theoretical basis of numerical analysis of electromagnetic characteristics are studied and assumptions and boundary conditions are provided. Then the present problems and future development trend of the numerical analysis of electromagnetic characteristics for ferromagnetic wear debris are discussed.

Published

2019

5. Review on online inductive wear debris monitoring technology

Author

Tao Chen, Liyong Wang, Yuhai Gu, and Yunbo Zuo

Subjects

mechanical engineering computing, wear, fault diagnosis, condition monitoring, oils, lubricating oils, online inductive wear debris monitoring technology, online oil monitoring technique, wear condition, diagnose wear fault real time, current online oil monitoring, current domestic wear debris monitoring, international online inductive wear debris monitoring, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Online oil monitoring technique is now an important development means to monitor wear condition and diagnose wear fault real time. Inductive wear debris monitoring is the research hotspot in the current online oil monitoring for its unique characteristics. Based on the current domestic and international online inductive wear debris monitoring, the relevant comments to the online inductive wear debris monitoring technology were given. Then, the positive and inverse problems of numerical analysis of inductive wear debris monitoring are analysed. Based on the above, the difficulties and shortages of online inductive wear debris monitoring are studied and the development trend and research focus of online inductive wear debris monitoring are discussion to provide for the oil online technology research.

Published

2019

6. Research on remote state monitoring and intelligent maintenance system of CNC machine tools

Author

Yunbo Zuo, Hongjun Wang, Guoxin Wu, Yuhai Gu, and Wensheng Qiao

Subjects

maintenance engineering, machine tools, computerised numerical control, computerised monitoring, fault diagnosis, cnc machine tools, high-grade computer numerical control machine tools, remote state monitoring, intelligent maintenance system, maintenance information, machine tool, real-time state data, maintenance knowledge base, dynamic monitoring data, maintenance method, intelligent maintenance level, Engineering (General). Civil engineering (General), TA1-2040

Abstract

In order to improve the operation reliability of high-grade computer numerical control (CNC) machine tools and reduce the maintenance time of failures, the remote state monitoring and intelligent maintenance system for CNC machine tools was proposed. Through collecting the basic information of equipment, maintenance information, and the information of the vibration, temperature, main current and power of the machine tool based on soft-bus technology, the system analysed the real-time state data, got the reliability parameters, extracted the fault features and established the maintenance knowledge base. Combining the dynamic monitoring data and static data, the system evaluated the key parts of machine tools. By the fault knowledge base, the system analysed the reason for failure and recommended the maintenance method. With the function modules, the system can improve the intelligent maintenance level of CNC machine tools and improve the using efficiency of machine tools.

Published

2019

7. Early warning method of the deterioration tendency of wind power transmission system

Author

Xiaoli Xu, Yunbo Zuo, Xiuli Liu, Chao Ma, Yuhai Gu, and Zhanglei Jiang

Subjects

safety, maintenance engineering, wind power plants, condition monitoring, wind turbines, fault diagnosis, power generation reliability, signal processing, deterioration tendency, wind power transmission system, wind turbine, predictive maintenance, complex electromechanical system, signal processing method, early warning methods, system stability deterioration trend, safety monitoring, fault warning, prediction maintenance, Engineering (General). Civil engineering (General), TA1-2040

Abstract

In view of the stability and safe service of the transmission system of the wind turbine, the trend early warning method for the stability deterioration of the electromechanical system is proposed and the level of the predictive maintenance of the complex electromechanical system is improved. It includes: establishing the dynamic model of wind power transmission system, revealing the evolution law of the system stability deterioration, putting forward the signal processing method of the weak detection information, extracting the fault features decoupling with energy and constructing the early warning methods of the system stability deterioration trend. The research results can be applied to the safety monitoring and fault warning of the wind turbine. It is beneficial to ensure the safe and reliable operation of the equipment and realise the prediction maintenance, improve the operation and management level of the equipment, reduce the economic loss caused by the failure and promote the utilisation and development of green energy.

Published

2019

8. Design of electromagnetic sensor for metal wear particle detection in oil

Author

Yunbo Zuo, Yuhai Gu, and Yanhai Zhang

Subjects

solenoids, magnetic sensors, fault diagnosis, abrasives, coils, lubricating oils, vibrations, wear, ferromagnetic materials, electromagnetic induction, power transmission (mechanical), metal wear particle detection, mechanical transmission system, wear particles, lubricating oil, wear degree, mechanical equipment, metal properties, detection principle, metal particles, detection hardware system, 10-mm inner diameter sensor, ferromagnetic metal abrasive particles, abrasive particle detection, electromagnetic sensor, wear particle detection, optimisation design method, phase-locked amplification function, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Wear is one of the common faults in the mechanical transmission system. Detection of wear particles in lubricating oil can detect and evaluate the wear degree of mechanical equipment. The electromagnetic sensor for metal wear particle detection can be connected in series with the oil circuit, which has the advantages of full liquid flow, simple structure, distinguishing metal properties, and not being influenced by bubbles and vibration. In view of the shortcomings of the existing electromagnetic sensor for wear particle detection, the detection principle and the induction electromotive force model were studied, and the magnetic field change of the metal particles through three coil differential solenoids was analysed. The optimisation design method was proposed here, which was about the related parameters, such as the wire diameter, the coil turns, the coil widths and so on. The experimental analysis of the sensor was carried out based on detection hardware system that could provide the phase-locked amplification function. The 10-mm inner diameter sensor could detect the minimum 100-μm ferromagnetic metal abrasive particles after optimisation. The developed sensor could provide data information for the abrasive particle detection, fault diagnosis and early warning of wear degree of mechanical equipment.

Published

2019