Keywords: selective assembly, mathematical model, nonlinear dependence, quotient, iterative method
Model of selective assembly of two elements with dependence of the output parameter as a quotient of the input parameters
UDC 621.71
DOI: 10.26102/2310-6018/2024.44.1.027
The technological process of single-parameter selective assembly of two elements with parameters that are random variables, the values of which are determined by the finishing operations of the manufacturing processes, is considered. It is considered that the dependence between input and output parameters is nonlinear (nonlinear input-output models) and is represented in the form of quotient, and the completing rule is elementary. For a dependence of this type, expressions linking the values of tolerances (including group tolerances), limit deviations and limit values of input and output parameters are given. A method is proposed that helps to calculate group tolerances to fulfil the requirements to the accuracy of the output parameter in the whole area of its permissible values, as well as to determine the boundaries of selective groups. It is based on an iterative procedure, with each iteration consisting of sequentially executed steps. The output data of the previous iteration are the initial data for the next one. As a criterion for the end of the procedure, a given level of accuracy in calculating the average group tolerances is taken. The analytical and probabilistic model is developed, which takes into account the calculated boundaries of selective groups and helps to determine the most important indicators of selective assembly, such as the probability of formation of assembly sets, probabilities of formation of incomplete elements. An example of modelling is given, in which process indicators are determined using the developed method and model with given initial data. Prospects for further research are outlined.
1. Bonch-Osmolovskij M.A. Selective assembly. Moscow, Mashinostroenie; 1974. 144 p. (In Russ.).
2. Bulovskij P.I., Krylov G.V., Lopuhin V.A. Automation of selective instruments assembly. Leningrad, Mashinostroenie. Leningr. otd-nie; 1978. 232 p. (In Russ.).
3. Katkovnik V.Ja., Savchenko A.I. Fundamentals of selective assembly theory. Leningrad, Politehnika; 1991. 303 p. (In Russ.).
4. Sorokin M.N., Anurov Ju.N. Algorithm for solving the picking problem in selective assembly of shaft-to-bushing products using the method of intergroup interchangeability. Sborka v mashinostroenii, priborostroenii = Assembling in Mechanical Engineering and Instrument-Making. 2012;9:15–18. (In Russ.).
5. Malahov A.D. Organisation of selective assembly in case of inequality of group tolerances. Sborka v mashinostroenii, priborostroenii = Assembling in Mechanical Engineering and Instrument-Making. 2005;5:11–13. (In Russ.).
6. Mansoor E.M. Selective assembly: its analysis and applications. Int. J. Prod. Res. 1961;1(1):13–24. DOI:10.1080/00207546108943070.
7. Mease D., Nair V.N., Sudjianto A. Selective assembly in manufacturing: statistical issues and optimal binning strategies. Technometrics. 2004;46(2):165–175. DOI: 10.1198/004017004000000185.
8. Coullard C.R., Gamble A.B., Jones P.C. Matching problems in selective assembly operations. Ann. Oper. Res. 1998;76:95–107. DOI:10.1023/A:1018960924601.
9. Kannan S.M., Raja Pandian G. A new selective assembly model for achieving specified clearance in radial assembly. Materials Today: Proceedings. 2021;46:7411–7417. DOI: 10.1016/j.matpr.2020.12.1229.
10. Pugh G.A. Partitioning for selective assembly. Comput. Ind. Eng. 1986;11(1-4):175–179. DOI: 10.1016/0360-8352(86)90073-2.
11. Filipovich O., Filipovich V. Determination the selective assembly indicators of two elements with an output parameter in the form of a product of input. Proceedings - 2023 International Conference on Industrial Engineering, Applications and Manufacturing, ICIEAM 2023. 2023:1091–1095. DOI: 10.1109/ICIEAM57311.2023.10139199.
12. Filipovich O.V., Filipovich V.O. Solving the problem of selective assembly of two elements with a multiplicative input-output model using approximation. Avtomatizacija i izmerenija v mashino- priborostroenii = Automation and measurement in mechanical engineering and instrument engineering. 2023;21(1):61–69. (In Russ.).
Keywords: selective assembly, mathematical model, nonlinear dependence, quotient, iterative method
For citation: Filipovich O.V. Model of selective assembly of two elements with dependence of the output parameter as a quotient of the input parameters. Modeling, Optimization and Information Technology. 2024;12(1). URL: https://moitvivt.ru/ru/journal/pdf?id=1523 DOI: 10.26102/2310-6018/2024.44.1.027 (In Russ).
Received 05.03.2024
Revised 15.03.2024
Accepted 25.03.2024
Published 31.03.2024