Computer-Aided project of the progressive gears installation validation workstation

• Autorzy: Lonkwic P.
• Języki publikacji: EN

Abstrakty

EN

In reply to the Polish market demand and the increase of competitiveness in the lifting sector the innovative construction of CHP 2000 type gear with changeable loading capacity configuration has been created. Computer-aided project of the workstation to validate the installation of a friction lift brake (the gear) in the production conditions is presented in the research study. The construction and the operation scheme of the lift braking system are described. Methodology of validation has been proposed at the stage of production on the basis of variability of the production demand for the presented model of the progressive gear.

Słowa kluczowe

EN

gear; installation; computer validation system

• Wydawca: Polskie Towarzystwo Promocji Wiedzy ; Lublin University of Technology
• Czasopismo: Applied Computer Science
• Rocznik: 2015
• Tom: Vol. 11, no 1
• Strony: 5--14
• Opis fizyczny: Bibliogr. 11 poz., fig.

Twórcy

autor

Lonkwic P.

• LWDO Lift Service S.A., Roztocze 6 Street, 20-722 Lublin

Bibliografia

• [1] Feng L., Bao Y., Zhou X., Wang Y.: High Speed Elevator Car Frame’s Finite Elements Analysis. Advanced Materials Research 510, 2012, pp. 298–303.
• [2] Filas J., Mudro M.: The dynamic equation of motion of driving mechanism of a freight elevator. Procedia Engineering 48, 2012, pp. 149–152.
• [3] Jong de J.: Understanding the natural behavior of elevator safety gears and their triggering. The International Congress on Vertical transportation technologies, Istambul 2004.
• [4] Lonkwic P., Gardyński L.: Testing polymer rollers memory in the context of passenger lift car comfort. Journal of Vibroegineering 1, 2014, pp. 225–230.
• [5] Lonkwic P.: Using disk spring solver application for prototyping disk spring in passenger lift catchers. Applied Computer Science, Vol. 10, 2014, pp. 67–74.
• [6] Lonkwic P., Szydło K.: Selected Parameters of the Work of Speed Limiter Line Straining System in a Frictional Lift. Advances in Science and Technology 8 (21), 2014, pp. 73–77.
• [7] Onur Y. A., Imrak C., E.: Reliability analysis of elevator car frame using analytical and finite element methods. Building Services Engineering Research & Technology 3, 2013, pp. 293–305.
• [8] Polish Standard PN EN 81.1+A3, Safety Regulations Concerning the Structure and Installation of Lifts, Part I. Electric Lifts.
• [9] Polski M., Mielniczuk M.: Design of testing bench for evaluation of safety gears capacity. Praca Magisterska, Lublin 2014.
• [10] Taplak H., Erkaya S., Yildririm S., Uzmay I.: The Use of Neural Network Predictors for Analyzing the Elevator Vibrations. Mechanical Engineering 39, 2014, pp. 1157–1170.
• [11] Zhu W.D., Ren H.: A linear model of stationary elevator traveling and compensation cables. Journal of Sound and Vibration 332, 2013, pp. 3086–3097.