Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Designing fall arrest systems, which contain horizontal flexible anchor lines is an important technical problem related to the safety of people who work at a height and need horizontal freedom of movement. The article presents a numerical simulation of the dynamic performance of horizontal flexible anchor lines during fall arrest. The model of a 2-component system – a horizontal flexible anchor line and a falling rigid mass, described with a second order non-linear differential equation - is the main element of this method. This method of simulation is realised by a computer program, which allows obtaining the most important data characterising a fall arrest. The article shows laboratory tests used for the verification of this method, which turned out to be a valuable source of information and which can be used for designing fall arrest systems.
Wydawca
Rocznik
Tom
Strony
521--534
Opis fizyczny
Bibliogr. 11 poz., rys., wykr.
Twórcy
autor
- Department of Personal Protective Equipment, Central Institute for Labour Protection, Lodz, Poland
autor
- Department of Personal Protective Equipment, Central Institute for Labour Protection, Lodz, Poland
Bibliografia
- 1. Baszczyński, K., & Zrobek, Z. (1998). Stalowe poziome liny zaczepowe [Horizontal flexible anchorage lines made from wire ropes]. Bezpieczeństwo Pracy, 6, 18-22.
- 2. Dolecki, M. (1990). Obciążenia dynamiczne działające na człowieka podczas powstrzymywania spadania z wysokości [Dynamic loads acting on human body during fall arrest]. Prace ClOP, 145, 83-105.
- 3. European Committee for Standardization (CEN). (1996). Protection against falls from a height-Anchor devices-Requirements and testing (Standard No. EN 795:1996). Brussels, Belgium: Author.
- 4. Miura, N., & Sulowski, A.C. (1991). Introduction to horizontal lifelines. In A.C. Sulowski (Ed.), Fundamentals of fall protection (pp. 217-283). Toronto, Ont, Canada: International Society for Fall Protection.
- 5. Noel, G. (1991). Study of pendular motion and its importance for vertical and horizontal clearances. In A.C. Sulowski (Ed.), Fundamentals of fall protection (pp. 345-356). Toronto, Ont, Canada: International Society for Fall Protection.
- 6. Paureau, J. (1998). Falls from height-Simplified modelling of man/protective device systems. Unpublished manuscript.
- 7. Paureau, J., & Jacqmin, M. (1998). Life lines. Specifications. Testing. Cahier de Notes Documentaires, 173, 413-428.
- 8. Riches, D., & Feathers, L. (1998). Research, development and testing of multiple span multiple use horizontal lifelines from the designer's perspective. In International Fall Protection Symposium & Exhibition, Wuppertal, Germany [Abstract] (pp. 104-105). Wupperlal, Germany: Bau-Berufsgcnosscnschaft Rheinland und Westfalen, Zcntrum für Sichcrhcitstechnik.
- 9. Sulowski, A.C. (1991a). Fall protection systems-Classification. In A.C. Sulowski (Ed.), Fundamentals of fall protection (pp. 285-301). Toronto, Ont, Canada: International Society for Fall Protection.
- 10. Sulowski, A.C. (1991b). Residual risk in fall arresting systems. In A.C. Sulowski (Ed.), Fundamentals of fall protection (pp. 321-344). Toronto, Ont, Canada: International Society for Fall Protection.
- 11. Timmcrmans, F. (1998). Design of horizontal lifelines to protect several persons from falling. In International Fall Protection Symposium & Exhibition, Wuppertal, Germany [Abstract] (pp. 103-104). Wuppertal, Germany: Bau-Berufsgenosscnschaft Rheinland und Westfalen, Zcntrum für Sicherheitstcchnik.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-8ec97fb5-bc3d-42da-ac80-5b7b56616b9c