Method for determining the number of defective products in a sample based on one measurement result

The most pressing problems in terms of production are increasing labor productivity and the quality of its results. One of the main ways to increase labor productivity is the development of new progressive technological processes. There are methods for controlling batches of products that can reduce the time of its control and increase labor productivity, which include methods of statistical quality control based on an alternative criterion. However, a sample from a batch of products must be fully controlled. When inspecting with one inspection tool, the sample inspection time is no less than the sum of the inspection times of all sample items. The purpose of this work is to develop a method for determining the number of defective products in a sample with one inspection tool, allowing to reduce the sample inspection time to the minimum possible. A method is proposed for determining the number of defective products of a certain class in a sample with one inspection tool using samples, which allows to signifi cantly reduce the sample inspection time. The samples are connected in parallel to the controlled products and are connected in series. All products in the sample with samples are controlled simultaneously, the total value of the controlled parameter is determined for them, and the number of defective products in the sample is determined by the formula. The effectiveness of the method is shown using the example of monitoring electromagnetic relays. The method makes it possible to reduce the sample inspection time to the minimum possible value, equal to the inspection time of one product.

1. Brish V. N., Starostin A. V., Osipov Yu. R. Applicability of statistical methods of analysis and quality control of engineering products at different stages of production. Fundamental Research, 12(4), 719–724 (2016). (In Russ.)

2. Grudinin V. G. Modern regulation basis of sampling inspections by variables. Proceedings of Irkutsk State Technical University. Mechanics and mechanical engineering, 6(89), 13–18 (2014). (In Russ.)

3. Savchik E. N., Manakova I. A. Instrumenty upravleniya kachestvom [Quality management tools] Textbook. M. F. Reshetnev Siberian State University Publ., Krasnoyarsk (2017). (In Russ.)

4. Vasilkova P. D., Ivanov V. K., Shodina A. V. et al. Optimisation methods research of integrated quality parameters monitoring of devices traffi c processing, working in the software defi ned networks. NOVAINFO, (106), 18–20 (2019). (In Russ.)

5. Rozko M. I. Statisticheskij priyomochnyj kontrol’ kachestva produkcii: svojstva i vozmozhnosti. [Statistical acceptance control of product quality: properties and capabilities. Part 2]. Standards and Quality, (10), 28–33 (2020). (In Russ.)

6. Redko L. A., Peskova E. S. Problemy primeneniya statisticheskih metodov kontrolya i upravleniya kachestvom [Problems of application of statistical methods of control and quality management]. Siberian Journal of Science, (1), 203–205 (2011). (In Russ.)

7. Vorontsov L. N., Condorf S. F., Truten V. A., Fedotov A. V. Teoriya i proektirovanie kontrol’nyh avtomatov. Vysshaya shkola Publ., Moscow (1980). (In Russ.)

8. Mironchenko V. I. Avtomatizaciya kontrolya geometricheskih parametrov izdelij. GosNIP “Raschyot” Publ., Moscow (2011). (In Russ.)

9. Mironchenko V. I. Methods of increasing the productivity of continuous monitoring of mass-produced articles. Measurement Techniques, 52(2), 207–211 (2009). https://doi.org/10.1007/s11018-009-9248-9