STUDY OF PRODUCT QUALITY CONTROL METHODS IN THE PRODUCTION OF A QUALITY PRODUCT

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STUDY OF PRODUCT QUALITY CONTROL METHODS IN THE PRODUCTION OF

A QUALITY PRODUCT

Kh.Ortikov, D.Akhmedova

Teacher at Namangan State Technical University

Annotation:

The essence of quality control of products in the production process is the

production of high-quality products by checking measures and methods aimed at ensuring the

high quality of manufactured products.

Keywords:

Gas meter, municipal, industrial, household, rotary, tubular, vortex, diaphragm gas

meter, direct metering, collective metering, joint metering, indirect metering, flow meter,

raxodometer, ultrasonic gas meter, speed and volume meters.

The essence of product quality control in the production process means a set of measures aimed

at ensuring high quality of manufactured products. Product quality control includes mandatory

processes such as random inspection, strict control, as well as processes related to classification

and use of terminology.

Quality control of selected products is the measurement or verification of the quality of

products presented as a certain product. In this case, the quality of the product is checked on the

basis of a selected sample of the product, which is the object of control. This method of control

is used to ensure that the average assessment of the quality of the product obtained for the

sample is equal to the quality of the product obtained for the entire volume of products.

The impact of product quality control on product quality is that product quality control allows

not only to ensure high product quality, but also to evaluate the production process as a whole.

Properly organized product quality control allows to increase the efficiency of the production

process and reduce the number of defective products.

Product quality control plays an important role in improving product quality and production

efficiency, which is necessary for competitiveness in the market.

Incoming inspection

is the process of quality control of products at the stage of entering

production. In the context of the industry, the object of access control is raw materials,

materials and components included in the production process.

The use of access control terminology is regulated by a standard that defines mandatory steps

and means of control. Mandatory stages of incoming control include control selected in

accordance with the specified characteristics of product quality.

Intermediate quality control of products.

Intermediate quality control of products is a

mandatory part of the production process, included in the quality control system. The essence of

this control is the selection and constant analysis of the quality of finished products included in

the production process.

• Classification of intermediate control by types of control objects:

o Raw materials (raw materials);

o Intermediate products (intermediate products);

o Finished products.

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Intermediate control also implies the use of mandatory state standards regulating quality in the

production of medicines. Guarantees the quality and safety of its products at all stages of

production and sales.

Final control.

Final quality control is one of the mandatory types of control at the production

stage. This means that each manufactured product must undergo strict control before it is

released to the market.

Random monitoring and control of the production process helps reduce the percentage of

defects and ensure consistent product quality at all stages of production. However, the final

inspection is the last stage of quality control that every manufactured product must pass before

entering the market.

As part of the final control, all mandatory types of control are implemented, however, the use of

specialized equipment and instruments for monitoring the relevant physical, chemical and

biological indicators is permitted.

Literature:

1.

Мелибаев, М., Негматуллаев, С. Э., & Ортиков, Х. Ш. (2021). Движение шины

негоризонтальной опорной поверхности (Шинанинг гоизонтал бўлмаган таянч

юзадаги ҳаракати) ФерПИ. 2021. Том, 25(1), 176-178.

2.

Мелибаев, М., Ортиқов, Х., Хўжаназаров, Ш., & Абдумаликов, А. (2022). Машина

трактор

агрегатларининг

иш

шароитларида

носозликлар

сабабларини

баҳолаш. Science and Education, 3(3), 284-290.

3.

Мелибаев, М., & Абдуллажонов, Б. С. (2022). Машинасозликда деталларни улчамини

назорат килишда метрологик таъминот. Таълим ва ривожланиш тах, лили онлайн

илмий журнали, 2(4), 109-115.

4.

Негматуллаев, С. Э., Мелибаев, М., Абдуллажонов, Б., & Ортиков, Х. (2022).

Влияние шероховатости поверхности на износостойкость деталей машин. Barqarorlik

va yetakchi tadqiqotlar onlayn ilmiy jurnali, 505-509.

5.

Негматуллаев, С. Э., Мелибаев, М., Абдуллажонов, Б., & Ортиков, Х. (2022).

Влияние шероховатости поверхности на износостойкость деталей машин. Barqarorlik

va yetakchi tadqiqotlar onlayn ilmiy jurnali, 505-509.

6.

Melibayev, M., Hasanov, M., Ortiqov, X., & Yusufjonov, Z. (2022). Traktor pnevmatik

shinasining o'rtacha ishlash resurs muddatini aniqlash. Ta'lim va rivojlanish tahlili onlayn

ilmiy jurnali, 160-168.

7.

Мелибаев, М., Хожиева, Д., Ортиқов, Х., & Ахмедова, Д. (2022). Шиналарнинг

хизмат мувозанати ва эскириш кўрсаткичига таъсир этувчи омиллар. Science and

Education, 3(3), 319-330.

8.

Normatjonovich, A. A., Abdumukhtar, E. B., & Sharobiddin, O. H. (2023). Босимни

улчаш усулларининг киёсий тахлили. Journal of Innovation, Creativity and Art, 147-152.

9.

Baxodir, E., Hayitali, O., & Ramshid, A. (2022). IPAK QURTINI BOQISH SHAROITINI

OLINADIGA

IPAK

MAHSULOTLARI

SIFAT

KO

‘RSATKICHLARIGA

TA’SIRI. TA'LIM VA RIVOJLANISH TAHLILI ONLAYN ILMIY JURNALI, 95-100.\

10.

Xusainovich, B. A. A., & Oʻg‘Li, O. H. S. (2022). O ‘lchashlar noaniqligining

baholanishiga oid xalqaro darajadagi hujjatlar tahlili. Механика и технология,

(Спецвыпуск 1), 136-145.

INTERNATIONAL JOURNAL OF ARTIFICIAL INTELLIGENCE

ISSN: 2692-5206, Impact Factor: 12,23

American Academic publishers, volume 05, issue 05,2025

Journal:

https://www.academicpublishers.org/journals/index.php/ijai

page 1587

11.

Турғунбоевич, Қ. Ҳ., & Ўғли, О. Ҳ. Ш. (2022). ТУПРОҚНИ ТАКРОРИЙ ЭКИНЛАР

ЭКИШГА ТАЙЁРЛАШ ТЕХНОЛОГИЯЛАРИ. Science and innovation, 1(Special Issue

2), 49-55.

12.

Мелибаев, М., Абдукадиров, А., & Ортиков, Х. (2019). ДИНАМИЧЕСКИЙ

ПАСПОРТ ЗЕРНОУБОРОЧНОГО КОМБАЙНА" CASE". In Вклад университетской

аграрной науки в инновационное развитие агропромышленного комплекса (pp. 246-

251).

13.

Холмирзаев, И. А., Абдуллаева, Н. Х., Ортиков, Х. Ш., & Йигиталиев, Ж. А. (2019).

РЕШЕНИЯ

СЛОЖНЫХ

ЗАДАЧ

И

ОДИН

МЕТОД

СОЗДАНИЯ

ГРАФИКОВ. Экономика и социум, (5 (60)), 1233-1235.

14.

Djuraev, A., Kеnjaboyеv, S. S., & Akbarov, A. (2018). Development of design and

calculation of frictional force in rotational kinematic pair of the fifth class with longitudinal

grooves. Development, 5(9).

15.

Нишонов, Ф. А., Мелибоев, М., Кидиров, А. Р., & Акбаров, А. Н. (2018). Буксование

ведущих колес пропашных трехколесных тракторов. Научное знание современности,

(4), 98-100.

16.

Акбаров, А. Н. (2018). Обжиг кирпича твёрдым топливом взамен газа. Научное

знание современности, (4), 40-43.

17.

Алимджанова, Д., Акбаров, А., & Муйдинова, Н. К. (2017). Способ повышения

эффективности горения угольного топлива в кольцевой печи. In Issues of modern

education in the condition of globalization. Collection international scientific conference.–

2017.

18.

Sharipovich, K. S., Normatjonovich, A. A., Xusainovich, B. A., & Qahramonqizi, M. N.

(2022). Fifth Class Rotary Kinematic Pair Research Device in a Vegetable Oil Production

Press. International Journal of Special Education, 37(3).

19.

Кенжабоев, Ш. Ш., & Акбаров, А. Н. (2021). ЎСИМЛИК МОЙИ ИШЛАБ

ЧИҚАРИШ ПРЕССИДАГИ БЕШИНЧИ СИНФ АЙЛАНМА КИНЕМАТИК

ЖУФТЛИГИНИ ТАДҚИҚ ЭТИШ ҚУРИЛМАСИ. МЕХАНИКА ВА ТЕХНОЛОГИЯ

ИЛМИЙ ЖУРНАЛИ, (4), 14.

20.

Bobomatov, A., & Akbarov, A. (2023). Study of the influence of the performance of a raw

cotton cleaner on changes in the rotation speed of the peg drum. In E3S Web of

Conferences (Vol. 402, p. 10030). EDP Sciences.

21.

Negmatullaev, S. E., Melibaev, M., Akbarov, A. N., & Akbarov, C. A. (2023). Control

Gauges and Accuracy of Manufacture of Parts in Modern Mechanical Engineering. Journal

of Innovation, Creativity and Art, 2(1), 166-171.

22.

Кенжабоев, Ш. Ш., Акбаров, А. Н., & Негматуллаев, С. Э. (2022). Интеграция

межпредметных связей общепрофессиональных и специальных дисциплин при

подготовке специалистов механизации сельского хозяйства. In Материалы

конференции «Рязанский государственный агротехнологический университет имени

ПА Костычева (Vol. 2, pp. 148-153).

23.

Жўраев, А. Ж., Кенжабоев, Ш. Ш., & Акбаров, А. Н. (2022). Бўйлама ариқчали

бешинчи синф айланма кинематик жуфтликдаги ишқаланиш кучи моменти

ҳисоби. Механика и технология, 4(9), 29-35.

24.

Kenjaboyev, S., Akbarov, A., & Tuhtaboev, I. (2023). Results of experimental studies of an

improved oil extraction machine for obtaining high-quality vegetable oil. Universum:

технические науки, (9-5 (114)), 9-11.

INTERNATIONAL JOURNAL OF ARTIFICIAL INTELLIGENCE

ISSN: 2692-5206, Impact Factor: 12,23

American Academic publishers, volume 05, issue 05,2025

Journal:

https://www.academicpublishers.org/journals/index.php/ijai

page 1588

25.

Бахадиров, Г. А., Рахимов, Ф. Р., & Акбаров, А. Н. (2019). Расчет параметров

рычажной системы механизма подачи кожевенного полуфабриката в зону

механической обработки многооперационной машины. Машинашуносликнинг

долзарб муаммолари ва уларнинг ечими” Республика илмий-амалий конференцияси

мақолалар тўплами.-Тошкент, 20-21.

26.

Носиров, М. И., & Акборов, А. Н. (2019, October). Об экспериментальном стенде

многооперационной машины для механической обработки кож. In Сборник

материалов XXIV Международная научно-практическая конференция «Инновация-

2019».–Ташкент (pp. 25-26).

27.

Akbarov, A., Kirgizov, K., & Maxmudov, A. (2023). Complete factor experiments on fifth-

class rotary kinematic couples. In E3S Web of Conferences (Vol. 458, p. 02022). EDP

Sciences.

28.

Madaminov, S., Boltoev, A., & Akbarov, A. (2025, February). Complete factor

experiments of gear-lever differential transmission mechanism with movable axes. In AIP

Conference Proceedings (Vol. 3268, No. 1, p. 030010). AIP Publishing LLC.

29.

Djurayevich, D. A., Sharipovich, K. S., Qizi, M. N. Q., & Normatjonovich, A. A. (2024).

VAL TAYANCHLARI TAKOMILLASHTIRILGAN AGRЕGATINING DINAMIK

TAHLILI. Механика и технология, 4(17), 9-13.

30.

Normatjonovich, A. A. (2023). O ‘SIMLIKLARDAN MOYI SIQIB OLISH

QURILMASINING TAKOMILLASHGAN SIRPANISH PODSHIPNIGI. Механика и

технология, 4(13), 44-49.

31.

Normatjonovich, A. A. (2023). TAKOMILLASHGAN BESHINCHI SINF AYLANMA

KINEMATIK JUFT USTIDA OLIB BORILGAN KO ‘P OMILLI TAJRIBA

NATIJALARI TAHLILI. Механика и технология, (3 (6) Спецвыпуск), 22-27.

32.

Кенжабоев, Ш. Ш., Джураев, А. Д., & Акбаров, А. Н. (2020). НОВЫЕ

ЭФФЕКТИВНЫЕ КИНЕМАТИЧЕСКИЕ СХЕМЫ ПЛОСКИХ РИЧАЖНЫХ

МЕХАНИЗМОВ. Механика и технология, 1, 29-33.