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文档介绍:该【齿轮传动链动态精度测量的新方法 】是由【wz_198613】上传分享,文档一共【2】页,该文档可以免费在线阅读,需要了解更多关于【齿轮传动链动态精度测量的新方法 】的内容,可以使用淘豆网的站内搜索功能,选择自己适合的文档,以下文字是截取该文章内的部分文字,如需要获得完整电子版,请下载此文档到您的设备,方便您编辑和打印。齿轮传动链动态精度测量的新方法
Title: A Novel Method for Dynamic Precision Measurement of Gear Transmission Chains
Abstract:
Gear transmission chains are a crucial component in many mechanical systems, and their precision directly affects the overall performance of the system. Traditional methods for measuring the dynamic precision of gear transmission chains often have limitations, such as limited accuracy, high cost, or complexity. In this paper, we propose a novel method for dynamic precision measurement of gear transmission chains that overcomes these limitations. The method utilizes advanced sensing technologies and signal processing techniques to provide accurate and real-time measurements of the dynamic precision of gear transmission chains. Experimental results demonstrate the effectiveness and efficiency of the proposed method, showing great potential for its application in various mechanical systems.
1. Introduction
Gear transmission chains are widely used in various mechanical systems, such as automobiles, machine tools, and robotics. The dynamic precision of these chains directly affects the overall performance, reliability, and lifespan of the systems. Therefore, accurate and efficient measurement methods for the dynamic precision of gear transmission chains are of great significance.
2. Traditional Measurement Methods
. Direct Measurement Method: This method involves physically measuring the gear tooth profile using coordinate measuring machines (CMMs) or other similar devices. However, this method is time-consuming, costly, and cannot provide real-time measurements.
. Indirect Measurement Method: This method estimates the dynamic precision of gear transmission chains by measuring other observable parameters, such as vibrations or noise. However, the indirect measurement does not provide accurate and reliable results.
3. Proposed Methodology
. Sensor Selection: Advanced sensing technologies, such as laser displacement sensors or optical encoders, are utilized for real-time measurement of gear transmission chain dynamics. These sensors provide accurate and precise measurements at high sampling rates.
. Signal Processing Techniques: Signal processing techniques, such as Fourier analysis, wavelet transform, and statistical analysis, are applied to the collected sensor data. These techniques help extract relevant information about the dynamic precision of gear transmission chains from the measured signal.
. Data Fusion: Multiple sensors are utilized to capture the complete dynamics of the gear transmission chain. The data from these sensors are fused using appropriate algorithms to obtain a comprehensive and accurate representation of the chain's dynamic precision.
4. Experimental Validation
To validate the proposed method, experiments are conducted on a gear transmission chain testbed. The sensor data are collected, processed, and analyzed according to the proposed methodology. The results are compared with the measurements obtained from traditional methods, and the effectiveness and efficiency of the proposed method are evaluated.
5. Results and Discussion
The experimental results demonstrate that the proposed method provides accurate and real-time measurements of the dynamic precision of gear transmission chains. The measurements obtained from the proposed method are consistent with those from traditional methods, but with improved accuracy and efficiency. The proposed method shows great potential for application in various mechanical systems.
6. Conclusion
In this paper, a novel method for dynamic precision measurement of gear transmission chains is proposed. The method utilizes advanced sensing technologies, signal processing techniques, and data fusion algorithms to provide accurate and real-time measurements of the dynamic precision of gear transmission chains. Experimental results validate the effectiveness and efficiency of the proposed method, suggesting its potential for application in various mechanical systems. Further research can focus on optimizing the measurement system and exploring its application to specific mechanical systems with complex gear transmission chains.