Ultrasonic cutting sound spindle comprehensive performance test analysis system

Abstract

The invention discloses an ultrasonic cutting sound spindle comprehensive performance test analysis system which comprises a vertical servo motor, an ultrasonic cutting sound spindle, a rotating servo rotary platform, a radial servo sliding platform, a variable damper and a test analysis industrial control host. A cutting tool is installed on the ultrasonic cutting sound spindle, an infrared thermography probe is fixed on the radial servo sliding platform, the infrared thermography probe is connected with the industrial control host through an infrared thermography controller, a laser displacement probe is installed on the rotating servo rotary platform, and the laser displacement probe is connected with the test analysis industrial control host through a controller of a high-speed laser displacement sensor. The ultrasonic cutting sound spindle is connected with a numerical control ultrasonic generator and an impedance analyzer through a single-pole double-throw switch, and the numerical control ultrasonic generator and the impedance analyzer are both connected with the test analysis industrial control host. The vertical servo motor, the radial servo sliding platform and the rotating servo rotary platform are connected with a servo motion control card respectively through Z-shaft servo driving, radial servo driving and rotary servo driving, and the servo motion control card is arranged in the industrial control host.

Description

technical field [0001] The present invention relates to a comprehensive performance test and analysis system of an ultrasonic cutting acoustic spindle, more precisely, to a module system capable of analyzing and controlling a host computer, a servo motion control card, an impedance analyzer, a high-speed laser displacement sensor, and an infrared thermal image sensor. Integrate, and on this basis, develop a comprehensive performance test and analysis system for the no-load impedance characteristics, cross-sectional vibration shape, infrared heat, power frequency, etc. of the ultrasonic cutting acoustic spindle. Background technique [0002] Emerging composite materials are more and more widely used in high-tech fields such as aviation and aerospace. However, the traditional high-speed processing methods still have shortcomings in terms of efficiency and environmental protection. The generation of ultrasonic cutting technology can solve the above problems well. The ultrasonic...

AI Technical Summary

Problems solved by technology

In addition, at present, ultrasonic cutting acoustic spindles often only perform step-by-step testing of a single performance, lack of comprehensive and systematic analysis of ultrasonic cutting acoustic spindles, it is difficult to fully integrate and utilize these test data, and the efficiency and effect of performance testing are not ideal

At present, the test automation and intelligence are low, and the test steps rely too much on the quality and judgment of the operator. Human random factors affect the reliability of test data and test efficiency, which seriously affects the development of high-performance ultrasonic cutting acoustic spindles.

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