3D VIDEO MEASURING SYSTEM FOR TESTING OF MANUFACTURE OF PARTS THE HIGH PRECISION PROCESSING ; 3D ВИДЕОИЗМЕРИТЕЛЬНАЯ СИСТЕМА ДЛЯ КОНТРОЛЯ ИЗГОТОВЛЕНИЯ ДЕТАЛЕЙ ПОВЫШЕННОЙ ТОЧНОСТИ ОБРАБОТКИ ; 3D ВІДЕОВИМІРЮВАЛЬНА СИСТЕМА ДЛЯ КОНТРОЛЮ ВИГОТОВЛЕННЯ ДЕТАЛЕЙ ПІДВИЩЕНОЇ ТОЧНОСТІ ОБРОБКИ
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| Název: | 3D VIDEO MEASURING SYSTEM FOR TESTING OF MANUFACTURE OF PARTS THE HIGH PRECISION PROCESSING ; 3D ВИДЕОИЗМЕРИТЕЛЬНАЯ СИСТЕМА ДЛЯ КОНТРОЛЯ ИЗГОТОВЛЕНИЯ ДЕТАЛЕЙ ПОВЫШЕННОЙ ТОЧНОСТИ ОБРАБОТКИ ; 3D ВІДЕОВИМІРЮВАЛЬНА СИСТЕМА ДЛЯ КОНТРОЛЮ ВИГОТОВЛЕННЯ ДЕТАЛЕЙ ПІДВИЩЕНОЇ ТОЧНОСТІ ОБРОБКИ |
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| Autoři: | Прокопченко, Сергій, Воскресенський, Володимир |
| Zdroj: | Bulletin of Kyiv Polytechnic Institute. Series Instrument Making; No. 61(1) (2021); 32-36 ; Вестник Киевского политехнического института. Серия приборостроение; № 61(1) (2021); 32-36 ; Вісник Київського політехнічного інституту. Серія Приладобудування; № 61(1) (2021); 32-36 ; 2663-3450 ; 0321-2211 |
| Informace o vydavateli: | National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute» |
| Rok vydání: | 2021 |
| Témata: | методи і засоби відео вимірювань, мультисенсорна метрологія, неруйнівний контроль, відеовимірювальні системи, зворотнє проектування, метрологічна інспекція, лінійні переміщення, кутові переміщення, методы и устройства видеоизмерений, мультисенсорная метрология, неразрушающий контроль, видеоизмерительные системы, обратное проектирование, метрологическая инспекция, линейные перемещения, угловые перемещения, methods and instruments video probing, multisensory metrology, nondestructive testing, video measuring systems, reverse engineering, metrological inspection, linear and angle premises |
| Popis: | During the control of technological processes of manufacturing various parts, which are required to increase the accuracy of processing, it is necessary to adhere to the systematic measurement of their geometric dimensions, tolerances, compliance with the shape and location of the surfaces of the parts. To date, this type of non-destructive testing is carried out using special optical systems and allows you to study different products, regardless of their type, design features and structure of the materials from which they are made. That is, the visual-optical method of measurement is one of the most important methods of non-destructive testing in production. In the article the authors shared practical experience in the selection and optimal use of 3D video measuring system with limited resources. The choice of manufacturer and model (type) of video measuring system was made depending on the complexity of the measurement tasks. First of all, the error of measurement results was evaluated, which was determined by technical indicators and the composition of software functionality. For control in the manufacture of high-precision mechanical parts, the basic requirements for technical parameters and software of the video measuring system are defined. Emphasis is placed on the economic effect by reducing the time of measurement of linear dimensions and angles in the plane of the controlled parts, while using high-quality functionality of video processing, which significantly reduces the likelihood of operator error. The choice between manual and automated measurement systems is justified: the main factors are the capacity and the required amount of measurements. Evaluated as a positive ability to save information files in Exel, Word, and SPC for statistical processing of information to improve the quality of parts. Features of video measuring systems concerning: implementation of innovative metrological solutions - multisensory metrology, namely - inclusion in the program of measurements of optical, laser and contact ... |
| Druh dokumentu: | article in journal/newspaper |
| Popis souboru: | application/pdf |
| Jazyk: | Ukrainian |
| Relation: | http://visnykpb.kpi.ua/article/view/237090/235625; http://visnykpb.kpi.ua/article/view/237090 |
| DOI: | 10.20535/1970.61(1).2021.237090 |
| Dostupnost: | http://visnykpb.kpi.ua/article/view/237090 https://doi.org/10.20535/1970.61(1).2021.237090 |
| Rights: | Авторське право (c) 2021 CC BY 4.0 ; https://creativecommons.org/licenses/by/4.0 |
| Přístupové číslo: | edsbas.8C0FE2B5 |
| Databáze: | BASE |
Nájsť tento článok vo Web of Science | Abstrakt: | During the control of technological processes of manufacturing various parts, which are required to increase the accuracy of processing, it is necessary to adhere to the systematic measurement of their geometric dimensions, tolerances, compliance with the shape and location of the surfaces of the parts. To date, this type of non-destructive testing is carried out using special optical systems and allows you to study different products, regardless of their type, design features and structure of the materials from which they are made. That is, the visual-optical method of measurement is one of the most important methods of non-destructive testing in production. In the article the authors shared practical experience in the selection and optimal use of 3D video measuring system with limited resources. The choice of manufacturer and model (type) of video measuring system was made depending on the complexity of the measurement tasks. First of all, the error of measurement results was evaluated, which was determined by technical indicators and the composition of software functionality. For control in the manufacture of high-precision mechanical parts, the basic requirements for technical parameters and software of the video measuring system are defined. Emphasis is placed on the economic effect by reducing the time of measurement of linear dimensions and angles in the plane of the controlled parts, while using high-quality functionality of video processing, which significantly reduces the likelihood of operator error. The choice between manual and automated measurement systems is justified: the main factors are the capacity and the required amount of measurements. Evaluated as a positive ability to save information files in Exel, Word, and SPC for statistical processing of information to improve the quality of parts. Features of video measuring systems concerning: implementation of innovative metrological solutions - multisensory metrology, namely - inclusion in the program of measurements of optical, laser and contact ... |
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| DOI: | 10.20535/1970.61(1).2021.237090 |