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Elektrik Kabloları Terminal Çakım Kalitesini Belirlemede Kullanılan Yöntem ve Cihazlar

Year 2021, Issue: 27, 221 - 227, 30.11.2021
https://doi.org/10.31590/ejosat.957230

Abstract

Bu çalışmada, günümüzde hızla gelişen ve büyüyen hazır elektrik kablosu imalat sektöründe terminal çakım (krimpleme) işleminin kalite tespitinde kullanılan analiz yöntemlerinin ve analiz için kullanılan cihazların araştırılması planlanmıştır. Elektrik kabloları hem veri alışverişinde hem de elektrik akımının iletiminde kullanılmaktadır. Bu nedenle montajının her zaman kolay ve güvenilir bir şekilde yapılması istenir. Bunun için kablonun ucuna terminal adı verilen bağlantı elemanı yerleştirilir. Bu işleme terminal çakımı (krimpleme) adı verilir. Terminal çakım işlemi sıkma pensesi yardımı ile manuel olarak ya da yarı otomatik veya tam otomatik makineler ile gerçekleştirilebilir. Ancak yapılan işlem her zaman istenilen kalitede gerçekleştirilemeyebilir. Kalitesiz çakım işlemi sonucunda veri iletiminde kayıplar yaşanabilir. Elektrik akımının iletiminde ise kötü temas sonucu kablo ısınmaları, patlama, yangın gibi istenmeyen olaylar olabilir. Bu nedenle yapılan terminal çakım işlemlerinin kalitesinin belirlenmesi için bazı kalite kontrol cihazlarına veya tasarlanacak test platformlarına ihtiyaç duyulmaktadır. Mevcut kalite kontrol cihazlarında çakım kalitesinin belirlenmesi temel olarak elektriksel test, kesit görüntüleme ve kuvvet analizi yöntemleri ile yapılmaktadır. Bu çalışmada kablo işleme endüstrisinde çakım kalitesini belirleme yöntemleri ve araçlarının karşılaştırmalı analizi yapılmıştır. Çakım işlemlerinde karşılaşılabilecek hatalar ve özellikleri ortaya konularak, tahribatlı/tahribatsız kalite kontrol tekniklerinin tercih nedenleri, avantaj ve dezavantajları özetlenmiştir.

References

  • Camiresearch1. (2015). Improving Cable Quality & Reliability Resistance Measurement to Within 1mΩ. https://www.camiresearch.com/Campaigns/Web-Articles/4-wire-testing.html
  • Camiresearch2. (2021). CableEye HVX System for High Voltage Cable and Harness Testing Datasheet. https://www.camiresearch.com/HVX_Photos/hipot_data_sheet.pdf
  • Deveci, H. C. (2013). Proses Hata Türü ve Etkileri Analizi ve Kablo Kesim Sürecine Uygulanması. Kocaeli Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi.
  • Elliott, B. (2007). Electromechanical devices & components illustrated sourcebook. McGraw-Hill Education, 151.
  • Fan, L., Gao, Y., Li, Q., & Xu, H. (2012). Quality control on crimping of large diameter welding pipe . Chinese Journal of Mechanical Engineering, 25(6).
  • Knipex. (2019). Knipex PreciForce Crimping Pliers. https://www.knipex.com/products/crimping-pliers/knipex-preciforce-crimping-pliers/knipex-preciforcecrimping-pliers/975236
  • Mark-10. (2020). Wire Terminal Pull Tester Model WT3-201 Datasheet. https://mark-10.com/products/wire-pull-testers/model-wt3-201
  • Ocoleanu, C. F., & Dolan, A. I. (2018). Experimental and Statistical Study of Connector Resistance Factor Influence on Crimping Validation Process. 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA).
  • Ocoleanu, C.-F., Cividjian, G., & Manolea, G. (2014). Solutions for quality pre-control of crimp contacts used in electric power systems and electrical machines. 3rd International Symposium on Environmental Friendly Energies and Applications (EFEA).
  • Ogihara, S., Takata, K., Hattori, Y., & Yoshida, K. (2006). Mechanical Analysis of the Crimping Connection. . Proceedings of the 52nd IEEE Holm Conference on Electrical Contacts.
  • Rajak, A. K., & Kore, S. D. (2017). Experimental investigation of aluminium–copper wire crimping with electromagnetic process: Its advantages over conventional process. Journal of Manufacturing Processes, 26, 57–66.
  • Rajak, A. K., & Kore, S. D. (2018). Comparison of different types of coil in Electromagnetic terminal - wire crimping process: Numerical and experimental analysis. Journal of Manufacturing Processes, 34, 329–338.
  • Schleuniger1. (2019). Schleuniger CrimpCenter 36 S Fully Automatic Crimping Machine Datasheet. https://www.mtntech.com/wp-content/uploads/2015/05/CC_36_S_DS_EN_A4_V8.pdf
  • Schleuniger2. (2018). Modular System for Crimp Cross-Section Analysis Datasheet. https://www.schleuniger.com/en/products/quality-assurance/crimp-micrograph-analysis/micrograph-system
  • Schmid, T. (2013). Development of a New Crimp-Quality-Monitoring System for Manually Operated Tools. University of Limerick Ollscoil Luimnigh, Master Thesis.
  • Standard1. (2018). [15]Standard for Wire Connectors UL 486a-486b. https://standardscatalog.ul.com
  • Standard2. (2013). Standard IEC International Electrotechnical Commission, Crimped connections - General requirements, test methods and practical guidance IEC 60352-2. https://www.sis.se/api/document/preview/572141
  • TEConnectivity. (2019). Crimp Quality Guidelines. https://www.te.com/content/dam/te-com/documents/application

Methods and Devices Used in Determining the Quality of Electric Wires Terminal Crimping

Year 2021, Issue: 27, 221 - 227, 30.11.2021
https://doi.org/10.31590/ejosat.957230

Abstract

In this study, it is planned to investigate the analysis methods and devices used for analysis in the quality determination of terminal crimping in the rapidly developing and growing ready-made electrical cable manufacturing sector. Electric cables are used both in data exchange and transmission of electric current. For this reason, it is always desired that its assembly be done easily and reliably. For this, a connection element called terminal is placed at the end of the cable. This process is called terminal crimping. Terminal crimping can be performed manually with the help of crimping pliers or with semi-automatic or fully automatic machines. However, the process may not always be performed in the desired quality. Losses in data transmission may occur as a result of poor quality crimping. In the transmission of electrical current, undesirable events such as cable heating, explosion, fire may occur as a result of bad contact. For this reason, some quality control devices or test platforms to be designed are needed to determine the quality of the terminal crimping operations. Determination of the crimp quality in existing quality control devices is mainly made by electrical testing, cross-sectional imaging and force analysis methods. In this study, comparative analysis of methods and tools for determining the crimp quality in cable manufacturing industry has been made. Defects that may be encountered in crimp processes and their characteristics are revealed, and the reasons for preference, advantages and disadvantages of destructive/non-destructive quality control techniques are summarized.

References

  • Camiresearch1. (2015). Improving Cable Quality & Reliability Resistance Measurement to Within 1mΩ. https://www.camiresearch.com/Campaigns/Web-Articles/4-wire-testing.html
  • Camiresearch2. (2021). CableEye HVX System for High Voltage Cable and Harness Testing Datasheet. https://www.camiresearch.com/HVX_Photos/hipot_data_sheet.pdf
  • Deveci, H. C. (2013). Proses Hata Türü ve Etkileri Analizi ve Kablo Kesim Sürecine Uygulanması. Kocaeli Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi.
  • Elliott, B. (2007). Electromechanical devices & components illustrated sourcebook. McGraw-Hill Education, 151.
  • Fan, L., Gao, Y., Li, Q., & Xu, H. (2012). Quality control on crimping of large diameter welding pipe . Chinese Journal of Mechanical Engineering, 25(6).
  • Knipex. (2019). Knipex PreciForce Crimping Pliers. https://www.knipex.com/products/crimping-pliers/knipex-preciforce-crimping-pliers/knipex-preciforcecrimping-pliers/975236
  • Mark-10. (2020). Wire Terminal Pull Tester Model WT3-201 Datasheet. https://mark-10.com/products/wire-pull-testers/model-wt3-201
  • Ocoleanu, C. F., & Dolan, A. I. (2018). Experimental and Statistical Study of Connector Resistance Factor Influence on Crimping Validation Process. 2018 7th International Conference on Renewable Energy Research and Applications (ICRERA).
  • Ocoleanu, C.-F., Cividjian, G., & Manolea, G. (2014). Solutions for quality pre-control of crimp contacts used in electric power systems and electrical machines. 3rd International Symposium on Environmental Friendly Energies and Applications (EFEA).
  • Ogihara, S., Takata, K., Hattori, Y., & Yoshida, K. (2006). Mechanical Analysis of the Crimping Connection. . Proceedings of the 52nd IEEE Holm Conference on Electrical Contacts.
  • Rajak, A. K., & Kore, S. D. (2017). Experimental investigation of aluminium–copper wire crimping with electromagnetic process: Its advantages over conventional process. Journal of Manufacturing Processes, 26, 57–66.
  • Rajak, A. K., & Kore, S. D. (2018). Comparison of different types of coil in Electromagnetic terminal - wire crimping process: Numerical and experimental analysis. Journal of Manufacturing Processes, 34, 329–338.
  • Schleuniger1. (2019). Schleuniger CrimpCenter 36 S Fully Automatic Crimping Machine Datasheet. https://www.mtntech.com/wp-content/uploads/2015/05/CC_36_S_DS_EN_A4_V8.pdf
  • Schleuniger2. (2018). Modular System for Crimp Cross-Section Analysis Datasheet. https://www.schleuniger.com/en/products/quality-assurance/crimp-micrograph-analysis/micrograph-system
  • Schmid, T. (2013). Development of a New Crimp-Quality-Monitoring System for Manually Operated Tools. University of Limerick Ollscoil Luimnigh, Master Thesis.
  • Standard1. (2018). [15]Standard for Wire Connectors UL 486a-486b. https://standardscatalog.ul.com
  • Standard2. (2013). Standard IEC International Electrotechnical Commission, Crimped connections - General requirements, test methods and practical guidance IEC 60352-2. https://www.sis.se/api/document/preview/572141
  • TEConnectivity. (2019). Crimp Quality Guidelines. https://www.te.com/content/dam/te-com/documents/application
There are 18 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Articles
Authors

Umut Emre Uzun 0000-0002-6209-2962

Turgut Karademir 0000-0001-9044-1552

Nihat Pamuk 0000-0001-8980-6913

Nevzat Onat 0000-0002-2244-4441

Early Pub Date July 29, 2021
Publication Date November 30, 2021
Published in Issue Year 2021 Issue: 27

Cite

APA Uzun, U. E., Karademir, T., Pamuk, N., Onat, N. (2021). Methods and Devices Used in Determining the Quality of Electric Wires Terminal Crimping. Avrupa Bilim Ve Teknoloji Dergisi(27), 221-227. https://doi.org/10.31590/ejosat.957230