Research Article
Year 2018,
Volume: 2 Issue: 2, 49 - 53, 15.05.2018
Abstract
References
- Balaban G. B., (2011). Otomotiv Kayar Kapı Mekanizmalarında Ağırlık Optimizasyonu, Master Thesis, University of Uludağ, Bursa, TURKEY.
- Guven C., Tufekci M., Bayik E., Gedik O., Tas M., (2015).” Experimental Verification and Finite Element Analysis of a Sliding Door System Used in Automotive Industry”, International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, Vol:9, No:10,
- Uzundere C. M., Karakoç Ö. (2014). “Bir Taşıt Kayar Kapı Mekanizmasında Ayarlanabilir Kapı Durdurucu,” 7th Automotive Technologies Congress, Bursa, TURKEY.
- Kurtulus O., Yavuz C. (2015), “Examining the Modular End of Line Control Unit Design Criteria for Vehicle Sliding Door System Track Profile”, International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, Vol:9, No:10.
- Ömür Ö.S., Rakipsiz C., Şengünalp H. (2014). “Sliding Door Design Without B-Pillar For Passenger Cars” 7th Automotive Technologies Congress, Bursa, TURKEY
- 2017/06937, (2017). SAYAN Ö., GÜNDOGDU Ö., TOPÇU L., ÖLMEZ H., Taşıtlara yönelik kayar kapı, Turkish Patent and Trademark Office, İSTANBUL, TURKEY
- WO/2017/142909, (2017). Method And Apparatus Of Extending Opening Ranges Of Vehicle Sliding Doors, World Intellectual Property Organization, Arizona, US
- 1055969, (1913). W. Ellis, Sliding Vehicle Door, United States Patent Office
Year 2018,
Volume: 2 Issue: 2, 49 - 53, 15.05.2018
Abstract
In the automotive sector, doors have an important issue in terms of vehicle and passenger safety. Therefore, different kinds of materials and mechanisms have been being designed and parameters have been being investigated and analyzed in order to increase the functional efficiency of the vehicle doors. In this study, an automatic open/close mechanism is designed which can be used in all types of vehicles with sliding doors. Sliding door mechanism with rope system was analyzed and information about the parts of the mechanism was explained. Door weight, rope diameter, torque, opening time of the door parameters were examined. Finally, the designed mechanism has mounted to a vehicle and it has been observed to work successfully.
References
- Balaban G. B., (2011). Otomotiv Kayar Kapı Mekanizmalarında Ağırlık Optimizasyonu, Master Thesis, University of Uludağ, Bursa, TURKEY.
- Guven C., Tufekci M., Bayik E., Gedik O., Tas M., (2015).” Experimental Verification and Finite Element Analysis of a Sliding Door System Used in Automotive Industry”, International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, Vol:9, No:10,
- Uzundere C. M., Karakoç Ö. (2014). “Bir Taşıt Kayar Kapı Mekanizmasında Ayarlanabilir Kapı Durdurucu,” 7th Automotive Technologies Congress, Bursa, TURKEY.
- Kurtulus O., Yavuz C. (2015), “Examining the Modular End of Line Control Unit Design Criteria for Vehicle Sliding Door System Track Profile”, International Journal of Mechanical, Aerospace, Industrial, Mechatronic and Manufacturing Engineering, Vol:9, No:10.
- Ömür Ö.S., Rakipsiz C., Şengünalp H. (2014). “Sliding Door Design Without B-Pillar For Passenger Cars” 7th Automotive Technologies Congress, Bursa, TURKEY
- 2017/06937, (2017). SAYAN Ö., GÜNDOGDU Ö., TOPÇU L., ÖLMEZ H., Taşıtlara yönelik kayar kapı, Turkish Patent and Trademark Office, İSTANBUL, TURKEY
- WO/2017/142909, (2017). Method And Apparatus Of Extending Opening Ranges Of Vehicle Sliding Doors, World Intellectual Property Organization, Arizona, US
- 1055969, (1913). W. Ellis, Sliding Vehicle Door, United States Patent Office
There are 8 citations in total.
Details
| Primary Language | English |
|---|---|
| Subjects | Engineering |
| Journal Section | Articles |
| Authors | |
| Publication Date | May 15, 2018 |
| Published in Issue | Year 2018 Volume: 2 Issue: 2 |