Применение ориентированных гиперграфов ограничений при проектировании…

Инженерный журнал: наука и инновации

# 5 2016

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Application of oriented constraint hypergraphs

in designing manufacturing technology precision structure



P.V. Kruglov, I.A. Bolotina

Bauman Moscow State Technical University, Moscow, 105005, Russia

When designing the assembly processes of engineering products one of the tasks is to

select a sequence of product assembly (assembly route), which is influenced by the re-

quirements for inspection and testing, the availability of standard processes, regulated

sequence of certain operations. In terms of design process automation, multi-variance of

assembly technology is the problem. In addition, in precision structure assembling it is

necessary to take into account the geometry of the components, methods of connection

and patterns of individual surfaces conjugation. To reduce the manual labor in the de-

sign of technology it is necessary to create a system of computer-aided design for tech-

nology of high-precision structure assembling. To develop such a system it is proposed to

use the design algorithm of technological assembly processes based on oriented con-

straint hypergraphs describing variants of part combinations, making impossible subse-

quent assembling other components. When using this algorithm the pairs of conjugated

parts are considered alternately and those parts which cannot be installed in the assem-

bly unit in assembling the pairs are indicated as restrictions. Constraint hypergraph de-

scription can be presented both in graphical and tabular form.

Variants of processes not contradicting with the constraints for a given assembly unit are

calculated on the basis of the constraint hypergraph. This approach can significantly

reduce the number of assembly options under consideration and offer the technology

developer a list of options, ranked according to certain criteria or the value of the objec-

tive function.

This algorithm has been tested in the development of assembly technology for high-

precision shaped charge. It reduced the number of considered technology options from

more than 5000 to 32. It is proposed to consider the possibility of progressive assembly

taking into account production section turnover as a criterion of assembly option selec-

tion.

Keywords:

sequence of assembly, assembly technology, constraint hypergraph.

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