Journal of Advanced Technology Convergence (미래기술융합논문지)

Korea Convergence Society (한국융합학회)
권호 표지
DOI QR코드

DOI QR Code

A Study on the Performance of Surface UV Printing Device for Power Indicator Production

파워인덕터 생산용 표면 UV 인쇄장치 성능 연구

  • Hyun-Mu Lee (Department of Nano & Semiconductor Engineering, Tech University of Korea) ;
  • So-Mi An (Daeyoung Tech Co., Ltd) ;
  • Sung-Min Ahn (Daeyoung Tech Co., Ltd) ;
  • Jeong-Hwan Seo (Department of Nano & Semiconductor Engineering, Tech University of Korea) ;
  • Byoung-Jo Jung (Department of Lift Engineering, Korea Lift College) ;
  • Sung-Lin Kang (Department of Nano & Semiconductor Engineering, Tech University of Korea)
  • 이현무 (한국공학대학교 나노반도체공학과) ;
  • 안소미 ((주)대영테크) ;
  • 안성민 ((주)대영테크) ;
  • 서정환 (한국공학대학교 나노반도체공학과) ;
  • 정병조 (한국승강기대학교 승강기공학부) ;
  • 강성린 (한국공학대학교 나노반도체공학과)
  • Received : 2023.11.14
  • Accepted : 2023.12.22
  • Published : 2023.12.30
Download PDF
⟨ Previous Next ⟩

Abstract

Research on power inductor surface UV printing equipment using cylindrical magnets can prevent damage to quality consumable materials (making plates, Squeegees) during printing and improve printing quality by applying technology to prevent product from flipping or standing up when fixing the product by making the magnetic formation of cylindrical magnets form up and down. The development of cylindrical magnets that changed the direction of magnetic force will stabilize the fixing method for metal products made by powder compression, increasing the production capacity for small products. Finally, by studying the power inductor surface UV printing device using cylindrical magnets, it can be differentiated from the spray and deeping methods that were being worked on, production will be greatly improved, and as a result, cost reduction and competitive production will be possible.

파워인덕터 생산용 표면 UV 인쇄장치 성능 연구는 원기둥 자석의 자력 형성이 상, 하로 형성되게 제작함으로써 제품 고정 시 제품이 뒤집히거나, 세워지는 현상을 방지하는 기술을 적용하여 인쇄 진행 시 품질 소모성 자재(제판, Squeegee)의 파손을 방지하고, 인쇄 품질을 향상시킬 수 있다. 자력의 방향을 바꾼 원기둥 자석의 개발로 파우더 압축으로 제작한 메탈 소재 제품에 대한 고정 방법이 안정화 되어 소형 제품에 대한 생산 능력이 증대할 것이다. 최종적으로 원기둥 자석을 활용한 파워인덕터 표면 UV 인쇄 장치를 연구함으로써, 기존 작업 진행하던 스프레이, Deeping 방식과 차별성을 둘 수 있고, 생산량이 크게 향상될 것이며 결과적으로는 인원 감축으로 원가절감 및 경쟁력 있는 제품 생산을 할 수 있을 것이다.

Keywords

Acknowledgement

This paper was carried out in 2023 with the support of the Korea Institute of Environmental Industry and Technology's DX-based carbon supply chain environmental manpower training project (Ministry of Environment) and the Korea Energy Technology Evaluation Institute's energy manpower training project (task name: training specialized manpower specializing in energy efficiency-based carbon resourceization by mid-sized companies). This work was supported by the Korea Environmental Industry & Technology Institute(KEITI) funded by the Ministry of Environment(MOE) (Training DX-based carbon supply network environmental experts). This work was supported by the Korea Institute of Energy Technology Evaluation and Planning(KETEP) and the Ministry of Trade, Industry & Energy(MOTIE) of the Republic of Korea (No. 20224000000200).

References

  1. S. Y. Ahn (2015). Development trends in mobile power inductors. An overview of the thesis at the academic research presentation of the Korean Society of Magnetism
  2. J. U. Kim (2023). Kwon D. E. Kwon Manual Device and Sensor Technology: While releasing a feature. KIPE MAGAZINE, 28(5), 22-23
  3. J. H. Lee (2013). Matrix type CRC and XOR/XNOR for high-speed operation in DDR4 and GDDR5. Journal of the Institute of Electronics and Information Engineers, 50(8), 136-142. DOI : 10.5573/ieek.2013.50.8.136
  4. D. H. Bang, & J Y. Park (2008). Screen Printed Power Inductors for Miniaturized DC-DC Converter Applications.
  5. K. M. Jeong, J. M. Won, Y. K. Lee & K. I. Koseki (2014). Review : The Advanced Inkjet Printing Technology - UV curable Jet Ink -. Journal of Korea Technical Association of the Pulp and Paper Industry, 46(2), 46-56.
  6. J. H. Kim, S. K. Sul, J. Y. Jeon & Y. K. Choi. (2001). High Resolution Position Control of Linear Permanent Magnet Synchronous Motor for SMD Placement System. In Proceedings of the KIEE Conference (pp. 314-316). The Korean Institute of Electrical Engineers.
  7. D. Y. Yoon, S. H. Hwang, H. K. Shon, C. S. Kim, T. W. Ahn & S. H. Song (2014). Laser Polymer Patterning for Fine Pitch PCB.
  8. S. W. Chun, H. J. Lee, J. H. Park, S. H. Park, & S. J. Park. (2014). Selective printing characteristics of UV curing ink for the coating of TSP Glass substrate.
  9. H. S. Lee. (2003). Thermophysical Properties of PWB for Microelectronic Packages with Solder Resist Coating Process. Journal of the Microelectronics & Packaging Society, 10(3), 73-82.
  10. J. Seo & J. H. Lee. (2001). Current status of laser manufacturing technology in printing rolls. Materials Research Institute
  11. K. H. Kim, M. J. Kim & P. G. Choi (2022). Laser Cleaning Technology for Removing Several Micrometers Particles onto the Display Glass Substrate.
  12. Y. Lee, J. H. Park, D. G. Kwag, J. H. Song, N. K. Lee, & H. J. Lee. (2012). Development of dispenser and squeezer module for automated system of screen printing process.
  13. D. I. Jung, K. K. Lee, T. W. Kim, & D. G. Ahn (2023). A Study on Powder Deposition Characteristics According to Design of Scraper Blade with Multi-steps. Proceedings of the KSMPE Conference.
  14. C. H. Lee, H. S. Kim, & G. B. Lee (2022). A Study on the Development of Vision Alignment Algorithm for Cap-stem Alignment of High-precision Laser Diode Welding Equipment.
  15. J. S. Hyun. (2023). High-resolution 3D Surface Measurement Technology and Application.