Affiliation:
1. School of Energy and Power Engineering, Xi’an Jiaotong University, Xi’an, PR China
Abstract
Pin coupling anti-rotation mechanism is adopted in mechanically driven automotive scroll compressor due to its simple structure and high reliability. However, the sidewall of anti-rotation hole in pin coupling anti-rotation mechanism is easy to be worn out, deteriorating the performance of scroll compressor. To figure out the cause and take measures, a dynamic model for pin coupling anti-rotation mechanism is developed in this paper. The dynamic model takes two important factors into consideration, offsetting scroll wraps and radial compliance mechanism. Using the dynamic model, the contact force between the anti-rotation pin and anti-rotation hole can be determined, thus the wear zone can be predicted during one rotation cycle. A simulation program adopting the above dynamic model is developed to predict the performance of automotive scroll compressor. The error between simulated shaft power of compressor and experimental result is no more than 4% for all test conditions. The wear zone predicted by the simulation program agrees well with the actual scroll compressor which survived a durability test.
Subject
Industrial and Manufacturing Engineering,Mechanical Engineering
Reference23 articles.
1. Otake S, Yoshii Y, Tsurutani K. New design approach for a scroll compressor anti-rotation mechanism. In: International Compressor Engineering Conference at Purdue, 1998, paper 1243.
2. Yi F, Qian Y. Developing a compact automotive scroll compressor. In: International Compressor Engineering Conference at Purdue, 2008, paper 1839.
3. Analytical Study on the Kinematics of an Orbiting Scroll in a Scroll Compressor. Analysis of Self-Rotational Motion.
4. Design Method of Offsetting the Orbiting Scroll and Its Influence on the Self-Rotation Characteristics of the Orbiting Scroll
5. Bush JW, Beagle WP, Housman ME. Maximizing scroll compressor displacement using generalized wrap geometry. In: International Compressor Engineering Conference at Purdue, 1994, paper 902.