ROTARY MECHANISM WITH THE ENHANCEABLE INDEXES OF EFFICIENCY FOR ORBITAL FORGING PROCESS

С П Гожій, А В Кліско, О П Халик

Abstract


General efficiency of production depends on the use of modern technological processes and effective technological equipment. The basic index of efficiency of equipment is an output-input ratio. It is necessary to take into account descriptions of reliability and productivity. The basic knot of equipment is a mechanism of orbital motion. His work flows with an origin and overcoming of forces of friction. His work flows with an origin and overcoming of forces of friction. This circumstance substantially influences on the useful use of energy. There are a few base constructions of orbital mechanisms. The analysis of their work is conducted, failings and ways of their removal are certain. The purpose of the article consists of creation of effective equipment and ground of the offered innovations. Their use provides maximal efficiency and reliability, and also minimum production cost. The article is the result of experimental and theoretical researches which are conducted on the department of mechanics of plasticity of materials and resource-safe processes of the National technical university of Ukraine «KPI».

Keywords


Rotary forging; equipment; technological process; deformation; efficiency; productivity; cost.

References


Marcinjak Z. Cold forging method of the orbital forging. Kuznechno-shtampovochnoe proizvodstvo. [Forging and stamping production], 1970, no 9, pp. 18-20.

Krivda L.T., Pshenishnjuk A.S. Mashina dlja sferodvizhnoj shtampovki. [Machine for orbital forging]. A.s. 889219 SSSR, MKI B 21 D 37/12 (SSSR), no 2627441/25-27; Zajavleno 12.06.78; Opubl. 15.12.81, Bjul. no 46, p. 3.

Krivda L.T., Gozhij S.P. Mashina dlja sferodvizhnoj shtampovki. [Machine for orbital forging]. A.s. 1650308 SSSR, MKI B 21 D 37/12 (SSSR), no 4626613/27; Zajavleno 27.12.88; Opubl. 23.05.91, Bjul. no 19, p. 6.

Krivda L.T., Gozhіj S.P. No transmission oscillator of press for orbital forging. Tehnologicheskie sistemy. [Technological systems]. no 2 (18), 2003, pp. 84-89.

Krivda L.T., Gozhіj S.P. Numerical calculation without transmission oscillator of press for orbital forging. Tehnologicheskie sistemy. [Technological systems]. 2006, no 1(33), pp. 58-61.


GOST Style Citations


1. Марциняк З. Холодная объемная штамповка методом обкатки // З. Марциняк; Кузнечно-штамповочное производство. 1970. - №9. - С. 18-20.


2. А.с. 889219 СССР, МКИ B 21 D 37/12. Машина для сферодвижной штамповки. / Л.Т. Кривда Л.Т., А.С. Пшенишнюк А.С. (СССР) - № 2627441/25-27; Заявлено 12.06.78; Опубл. 15.12.81, Бюл. №46 – 3с.


3. А.с. 1650308 CCCP, МКИ B 21 D 37/12. Машина для сферодвижной штамповки / Л.Т. Кривда, С.П. Гожий (СССР). - № 4626613/27; Заявлено 27.12.88; Опубл. 23.05.91, Бюл. №19 – 6 с.


4. Кривда Л.Т. Безтрансмісійний осцилятор преса для штампування обкочуванням. // Л.Т. Кривда, С.П. Гожій; Технологические системы. – №2 (18). – 2003. – С. 84...89.


5. Кривда Л.Т. Числовий розрахунок без трансмісійного осцилятора пресу для штампування обкоченням. // Л.Т. Кривда, С.П. Гожій; Технологические системы. – 2006. -№ 1(33). – С. 58…61.





DOI: http://dx.doi.org/10.20535/2305-9001.2013.68.33987

Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 Mechanics and Advanced Technologies