  meshcheryakov-bogacheva-fedina-tik-2023-4.pdf |
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- TEMPLE OF WEAVING MACHINE
- Meshcheryakov A. V., Bogacheva S. Yu., Fedina L. A. Temple of weaving machine. Technologies & Quality. 2023. No 4(62). P. 10–16. (In Russ.) https: doi 10.34216/2587-6147-2023-4-62-10-16.
- DOI: 10.34216/2587-6147-2023-4-62-10-16
- УДК: 677.054.7(088.8)
- EDN: FCCVWL
- Publish date: 2023-11-22
- Annotation: The article considers three designs of weaving machines with horizontal working bodies made in the form of disks with rows of needles on the side surfaces. The discs are located under the fabric in the course of its movement and are made up of three rings. Each ring carries one row of needles. From above, the cribs are closed with lids with fabric guides on the underside. The body sponges, the side surfaces of the discs and the lid guides have the same profile, which improves the retention of the fabric edge. The support guides of the housing and the lid limiters keep the fabric out of the crib in a horizontal position. The proposed temples for weaving machines allow increasing the uniformity of the properties of the fabric in width.
- Keywords: fabric, fabric selvedge, temple, body, cover, ring, disk, needle
- Literature list: 1. Nikolaev S. D., Rybaulina I. V., Borovkov V. V. Weaving process design. Moscow, 2015. 147 p. (In Russ.) 2. State Standard 50074–92. Weaving machines. Scraper rollers, Moscow, Standardinform, 1993. 5 p. (In Russ.) 3. Temples. ITE-001. HUNZIKER brochure, ITEMA series: Rapier, Airjet, 2019. 4. Temples. PIC-066. HUNZIKER brochure, PICANOL series: Airjet, 2019. 5. Shutovskaya V. A., Meshcheryakov A. V. Innovative development of the light and textile industry (INTEKS-2018). April, 2021. Moscow, Kosygin Rus. St. Univ. Publ., 2018. P. 48–50 (In Russ.) 6. Bukina S. V. Methodology for calculating the magnitude and distribution of load along the needles of a ring rope*. Izvestiya Vysshikh Uchebnykh Zavedenii. Seriya Teknologiya Tekstil’noi Promyshlennosti [Proceedings of Higher Educational Institutions. Series Textile Industry Technology]. 2012;4:141–143. 7. Bukina S. V. Experimental determination of the best combination of materials for the “ring under the ringlet” unit to improve the reliability of the operation of weaving looms’ cording devices. Vestnik Kos-tromskogo gosudarstvennogo tekhnologicheskogo universiteta [Bulletin of Kostroma State Technological University]. 2009;21:110–113. 8. Bukina S. V., Feofanov N. V. Determination of the number of rings and their angles of inclination for a differential rope. Vestnik Kostromskogo gosudarstvennogo tekhnologicheskogo universiteta [Bulletin of Kostroma State Technological University]. 2002;5:71–73. 9. Bukina S. V. Experimental studies of load distribution on rope rings. Vestnik Kostromskogo gosu-darstvennogo tekhnologicheskogo universiteta [Bulletin of Kostroma State Technological University]. 2001;3:45–47. 10. Temples. PIC-073. HUNZIKER brochure, PICANOL series: Airjet, 2019. 11. Temples. DOR-085. HUNZIKER brochure, DORNIER series: Airjet, Rapier, 2019. 12. Martynov I. A., Surkov B. A., Meshcheryakov A. V., Kornev B. I., Lyapin M. E., Kutepov S. A., Persian-inov I. I., Furtak I. V. Temple of weaving machine. A. s. 986986 USSR, 1983 (In Russ.) 13. Fujisawa Takashi. Caterpillar type Temple. Pat. JPHO No 4263652 Japan, 1992. 14. Surkov S. A., Bakulin E. N. Temple of weaving machine. A. s. 1747564 USSR, 1992 (In Russ.) 15. Konov A. N., Sinicyn V. A., Sinicyna I. V., Konov N. A., Sinicyn A. V. Temple of weaving machine, Pat. 2215073 2 Russian Federation, 2003 (In Russ.) 16. Surkov B. A., Meshheryakov A. V., Kornev B. I., Lyapin M. E., Persiyaninov I. I., Kutepov S. A. Temple of weaving machine. A. s. 185007 USSR, 1981. (In Russ.) 17. Martynov I. A., Meshheryakov A. V., Grigoriev A. V., Grigoriev V. A. Temple of weaving machine. Pat. 185007 Russian Federation, 2018. (In Russ.) 18. Meshheryakov A. V., Grigoriev A. V. Grigoriev V. A. Temple of weaving machine. Pat. 196097 Russian Federation, 2020. (In Russ.)