SYNTHESIS OF CAMSHAFT DRIVING MECHANISM IN ROLLER MOLDING INSTALLATION WITH COMBINED MOTION MODE ACCORDING TO ACCELERATION OF THIRD ORDER

For the purpose of increase of reliability and durability of roller forming installation the combined mode of back and forth motion of the forming cart on acceleration of the third order is calculated. Kinematic characteristics of the forming cart at the combined back and forth motion mode on acceleration of the third order are calculated. The design of the drive of installation in a type of the cam mechanism is developed and the cam profile for providing the combined mode of back and forth motion of the forming cart is constructed. Use in installation of the specified driving mechanism leads to improvement of quality of a surface to the processed concrete mix, reduction of dynamic loadings in elements of the driving mechanism, to disappearance of excess destructive loads of a frame design and, respectively, to increase of reliability and durability of installation in general.

1. Garnets V. N. (1991) Advanced concrete-molding assembly unit and complexes. Kiev, Budivelnik Publ. 144 (in Ukrainian).

2. Kuzin V. N. (1981) Technology for rolling molding of flat products made of fine grained concrete. Moscow. 20 (in Russian).

3. Riushin V. T. (1986) Investigation of operating process and development of calculation methodology for concrete mix rolling moulding machines. Kiev, 1986. 219 (in Russian).

4. Loveykin V. S., Pochka K. I. (2005) Analysis of non-uniform motion of rolling molding assembly unit with recuperation drive. Pidiomno-transportna tekhnika [Hoistinfg and Transportation Equipment], (4), 19–33 (in Ukrainian).

5. Loveykin V. S., Pochka K. I. (2007) Determination of optimum offset angle value for cranks of rolling molding assembly unit with recuperation drive. Avtomatizats?ya virobnichikh protses?v u mashinobuduvann? ta priladobuduvann?: ukra?ns'kii m?zhv?domchii naukovo-tekhn?chnii zb?rnik [Automation of industrial processes in mechanical and instrument engineering. Ukrainian interdepartmental scientific and technical collection]. Lviv, Publishing House Lviv Polytechnic National University, (41), 127–134 (in Ukrainian).

6. Loveykin V. S., Pochka K. I. (2010) Optimization of constructive parameters for driving mechanism in rolling molding assembly unit with energetically-balanced drive. MOTROL. Motorization and Power Industry in Agriculture. Lublin, 12B, 9–18 (in Ukrainian).

7. Garnets V. N., Loveykin V. S. (1988) Evaluation of design efficiency for rolling molding machines. Gornye, stroitel'nye i dorozhnye mashiny: Resp. mezhved. nauch.-tekhn. sb. [Mining, construction and road-building machinery: Republican Inter-Ministerial Scientific and Technical Collected Volume], (41), 51–55(in Ukrainian).

8. Loveykin V. S., Pochka K. I. (2004) Dynamic analysis of rolling molding assembly unit with recuperation drive. Dinam?ka, m?tsn?st' ? nad?in?st' s?l's'kogospodars'kikh mashin: pr. ?-? M?zhnar. nauk.-tekhn?ch. konf. (DSR AM-I) [Dynamics, capacity and reliability of agricultural machines: Proceedings of the 1st International Scientific and Technical Conference (DSR AM-I)]. Ternopil, 507–514 (in Ukrainian).

9. Loveykin V. S., Pochka K. I. (2003) Force analysis of rolling molding assembly unit with recuperation drive. Tekhnika budivnitstva [Construction Equipment], (14), 27–37(in Ukrainian).

10. Loveykin V. S., Pochka K. I. (2007) Results of experimental investigations on motion modes of rolling molding assembly unit with recuperation drive. Visnik Kharkivskogo Natsionalnogo Universitetu Silskogo Gospodarstva imia P. Vasilenka [Bulletin of Kharkiv Petro Vasylenko National Technical University of Agriculture], 1 (59), 465–474 (in Ukrainian).

11. Loveykin V. S. (1990) Calculation for optimum modes of mechanism motion in building machines. Kiev: Publishing House “UMK VO”. 168 (in Russian).