М.Е. Лиморенко, Е.О. Подчасов, А.Д. Терентьева

10

Инженерный журнал: наука и инновации

# 6·2017

Increase in accuracy of automatic control of vital parts

© M.E. Limorenko, E.O. Podchasov, A.D. Terenteva

Bauman Moscow State Technical University, Moscow, 105005, Russia

Increasing the requirements for the accuracy of machine part surfaces is one of the conse-

quences of the development of modern machine building. It leads to complication of interme-

diate control and acceptance testing, which will reduce the rejection rate. However, increas-

ing the requirements for accuracy can significantly complicate control technology and the

requirements for measuring technology. To solve this problem, it is possible to apply multiple

measurements with the obligatory condition of optimizing their quantity. The application of

the methodology for determining the minimum required number of measurements based on

the Student's coefficient, described in the classical literature, is associated with uncertainty.

We suggest, in order to overcome these difficulties, applying the method of sequential analysis

with the introduction of dimensionless criteria for stabilizing the process. The specified meth-

od allows us to reveal the minimum necessary quantity of measurements depending on char-

acteristics of technological process.

Keywords:

mechanical engineering, vital parts, accuracy of manufacture and measure-

ment, control, automation, sequential analysis

REFERENCES

[1]

Shtorm R.

Teoriya veroyatnostey. Matematicheskaya statistika. Statisticheskiy

control kachestva

[Probability theory. Math statistics. Statistical quality control].

Moscow, Mir Publ., 1970, 368 p. [in Russ.].

[2]

Nevelson M.S.

Avtomaticheskoe upravlenie tochnostyu obrabotki na

metallorezhuschikh stankah

[Automatic control of machining accuracy].

Leningrad, Mashinostroenie Publ., 1982, 184 p.

[3]

Zaytsev G.N

. Upravlenie kachestvom.Tekhnologicheskie metody upravleniya

kachestvom izdeliy

[Quality control. Processing methods of product quality

control]. St. Petersburg, Piter Publ., 2014, 266 p.

[4]

Limorenko A.D., Shachnev Yu.A.

Nauka i obrazovanie — Science and Education

,

2012, no. 11. Available at:

http://technomag.neicon.ru/doc/483097.html

[5]

Shachnev Yu.A., Barbashov N.N. Vibor effektivnyh kriteriev opredelenya

ob'ema izmereniy [Selection criteria for determining the effective measurement

volume].

9-ia Vserossiyskaya nauchno-tekhnicheskaya konferentsiya

«Sostoyanie i problemy izmereniy». Sbornik materialov

[9th All-Russian

Scientific Conference The condition and the measurement problems. Collection

of materials]. Moscow, BMSTU Publ., 2004, p. 27.

[6]

Barbashov N.N., Terenteva A.D.

Inzhenernyy vestnik. — Engineering Bulletin,

2015, no. 9. Available at:

http://engsi.ru/doc/801150.html

[7]

Barbashov N.N., Lopatina A.S., Podchasov E.O.

Privody i komponenty mashin —

Machine drives and parts

, 2015, no. 4–5, pp. 14–17.

[8]

Rahmatullin A.I., Moiseev V.S.

Matematicheskie modeli i metody optimizatsii

nestatsionarnykh system obsluzhivanya

[Mathematical models and methods of

optimization of non-stationary service systems]. Kazan, Shkola Publ., 2006, 211 p.

[9]

Kuznetsov L.A.

Metody menedzhmenta kachestva — Methods of Quality

Management

, 2008, no. 10, pp. 40–45.

[10]

Tikhonov V.I., Shakhtarin B.I., Sizykh V.V.

Sluchaynye protsesy. Tom 4.

Sluchaynye velichiny i protsessy

[Stochastic processes. Vol. 4. The random

variables and processes]. Moscow, Radio and svyaz Publ., 2003, 399 p.