Geometry Effect of Air Suction Gun on the Yarn Suction Characteristics

• Published in: Journal of Textile Engineering Vol. 54; no. 2; pp. 41 - 47
• Main Authors: IEMOTO, Yoshiyuki, TANOUE, Shuichi, HOSOKAWA, Jun-ichi, LI, Yonggui, MASUDA, Atsuji, MURAKAMI, Tetsuhiko
• Format: Journal Article
• Language: English
• Published: Osaka The Textile Machinery Society of Japan 2008; Japan Science and Technology Agency
• Subjects: Fluid machinery; Geometry effect; Suction gun; Yarn suction efficiency; Yarn suction force
• ISSN: 1346-8235; 1880-1986
• DOI: 10.4188/jte.54.41

We experimentally discussed the effects of airflow geometries in an air suction gun on the suction characteristics of running yarn. Geometry parameters focused on were 1) compressed-air inflow angle of nozzle, 2) diverging angle of nozzle, 3) throat diameter of de Laval tube, 4) converging angle of de Laval tube and 5) yarn propulsion tube length. As a result, effects of the geometry parameters on the yarn suction force, the mass flow rate of compressed-air and the yarn suction efficiency, which is defined as the yarn suction force divided by the mass flow rate of compressed-air, were made clear and the optimum geometry of an air suction gun was obtained on the basis of the energy efficiency. In addition, the yarn suction force showed two types of time dependency because of different yarn motion on some experimental conditions.