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[ Papers ] | |
Journal of the Korean Society of Manufacturing Technology Engineers - Vol. 30, No. 5, pp. 415-422 | |
Abbreviation: J. Korean Soc. Manuf. Technol. Eng. | |
ISSN: 2508-5107 (Online) | |
Print publication date 15 Oct 2021 | |
Received 03 Aug 2021 Revised 09 Sep 2021 Accepted 28 Sep 2021 | |
DOI: https://doi.org/10.7735/ksmte.2021.30.5.415 | |
전차선 회피가 가능한 수평이동형 피기백 상하역 시스템에 관한 연구 | |
Horizontally Moving Piggy-back Loading and Unloading System Capable of Avoiding Catenary Lines | |
aDepartment of Robotics and Mechatronics, Korea Institute of Machinery and Materials | |
Correspondence to : *Tel.: +82-42-868-7616 E-mail address: kimbi@kimm.re.kr (Byungin Kim). | |
Funding Information ▼ |
In domestic railway stations, transporting cargo using overhead cranes is difficult because of the catenary lines. Horizontal moving piggy-back transfer technology is a method of transporting trailers or cargo together with trucks on freight trains while avoiding the catenary lines. This thesis is a study on the design technology of piggy-back loading and unloading transfer facilities that satisfies all the conditions necessary for the use of the existing railroad network in Korea. By developing a shuttle system, including an air cushion transporter and a docking unit, the piggyback transport system was designed. This technology is expected to improve railroad logistics technology and expand the logistics market.
Keywords: Piggy-back, Railroad logistics, Loading and unloading system, Intermodal transport |
이 연구는 “철도물류 역내 화물트럭 탑재 피기백 화차용 이송설비 기술연구”(한국철도기술연구원)와 “하지장애인을 위한 독립활동 지원로봇 개발과제”(한국기계연구원)의 지원으로 진행된 결과입니다.
1. | Park, I. H., Park, Y. G., Kim, S. G., Kim, Y. K., 2014, A Study on Railroad Yard Reform for Vitalizing Freight Movement by Railroad : Focused on the Introduction of Piggy Back System, J. Korean Soc. Transp., 32:3 227-238. |
2. | Cargobeamer, 2016, viewed 22 July 2021, Next Generation Rail Cargo Technology, Standard Presentation Leipzig. <https://docplayer.net/48144557-Cargobeamer-next-generation-rail-cargo-technology-standard-presentation-leipzig-august-08th-foto-cargobeamer-cargobeamer.html>. |
3. | Korea Railroad Research institute, 2012, Technical Development of Railway Infrastructures and Energy Recycling System, KRRI Report 2012-027. |
4. | Paul, I., 2006, Rolling Highway as Ivangorod-Narva Border Crossing Solution, Second Research Meeting Held at Moscow–Strategic Role of Logistics and Supply Chain Management, 5-19. |
5. | Klein, P., Turlier, D., Ober, J., 2013, FEA Structural Stress of Modalohr System for Semi-trailer Rail Transportation: Weld Root Fatigue Focus, Procedia Eng., 66 79-87. |
6. | Komsta, H., Rybicka, I., Bukova, B., Brumercikova, E., 2018, The Case Study of the Cargobeamer System Use in Rail Transport in Slovakia, Transp. Probl., 13:3 145-149. |
7. | Wu, J., 2018, Pantograph and Contact Line System, Academic Press, London, UK. |
8. | Jung, H. M., Hong, J. H., Yun, D. W., Park, H. C., Kim, B. I., Lee, S. H., 2016, Development of Air Cushion Transporter Using the Pneumatic Floating Pad, J. Korean Soc. Manuf. Technol. Eng., 25:5 338-344. |
Researcher in department of Robotics and Mechatronics, Korea Institute of Machinery and Materials. His research interest is industrial robot system and manufacturing automation system.
E-mail: gusahr79@kimm.re.kr
Senior Researcher in department of Robotics and Mechatronics, Korea Institute of Machinery and Materials. His research interest is collaborative robot system and robot gripper system.
E-mail: kimbi@kimm.re.kr
Senior Researcher in department of Robotics and Mechatronics, Korea Institute of Machinery and Materials. His research interest is manufacturing automation system and induction heating technology.
E-mail: hcpark@kimm.re.kr